Documentation ¶
Overview ¶
Package source provides core features for use by Go editors and tools.
Index ¶
- Constants
- Variables
- func AddImport(ctx context.Context, snapshot Snapshot, fh FileHandle, importPath string) ([]protocol.TextEdit, error)
- func Analyze(ctx context.Context, snapshot Snapshot, pkgid PackageID, ...) (map[span.URI][]*Diagnostic, error)
- func ApplyFix(ctx context.Context, fix string, snapshot Snapshot, fh FileHandle, ...) ([]protocol.TextDocumentEdit, error)
- func ApplyProtocolEdits(m *protocol.Mapper, edits []protocol.TextEdit) ([]byte, []diff.Edit, error)
- func BuildLink(target, path, anchor string) string
- func CanExtractFunction(tok *token.File, start, end token.Pos, src []byte, file *ast.File) (*fnExtractParams, bool, bool, error)
- func CanExtractVariable(start, end token.Pos, file *ast.File) (ast.Expr, []ast.Node, bool, error)
- func CanInvertIfCondition(file *ast.File, start, end token.Pos) (*ast.IfStmt, bool, error)
- func CollectScopes(info *types.Info, path []ast.Node, pos token.Pos) []*types.Scope
- func CombineDiagnostics(tdiags []*Diagnostic, adiags []*Diagnostic, outT, outA *[]*Diagnostic)
- func CommentToMarkdown(text string, options *Options) string
- func CompareDiagnostic(a, b *Diagnostic) int
- func ComputeOneImportFixEdits(snapshot Snapshot, pgf *ParsedGoFile, fix *imports.ImportFix) ([]protocol.TextEdit, error)
- func Definition(ctx context.Context, snapshot Snapshot, fh FileHandle, ...) ([]protocol.Location, error)
- func Deref(typ types.Type) types.Type
- func DocumentSymbols(ctx context.Context, snapshot Snapshot, fh FileHandle) ([]protocol.DocumentSymbol, error)
- func FileDiagnostics(ctx context.Context, snapshot Snapshot, uri span.URI) (FileHandle, []*Diagnostic, error)
- func Format(ctx context.Context, snapshot Snapshot, fh FileHandle) ([]protocol.TextEdit, error)
- func FormatNode(fset *token.FileSet, n ast.Node) string
- func FormatNodeFile(file *token.File, n ast.Node) string
- func FormatType(typ types.Type, qf types.Qualifier) (detail string, kind protocol.CompletionItemKind)
- func FormatTypeParams(tparams *typeparams.TypeParamList) string
- func FormatVarType(ctx context.Context, snapshot Snapshot, srcpkg Package, obj *types.Var, ...) (string, error)
- func FromProtocolEdits(m *protocol.Mapper, edits []protocol.TextEdit) ([]diff.Edit, error)
- func GCOptimizationDetails(ctx context.Context, snapshot Snapshot, m *Metadata) (map[span.URI][]*Diagnostic, error)
- func Highlight(ctx context.Context, snapshot Snapshot, fh FileHandle, ...) ([]protocol.Range, error)
- func Hover(ctx context.Context, snapshot Snapshot, fh FileHandle, ...) (*protocol.Hover, error)
- func HoverDocForObject(ctx context.Context, snapshot Snapshot, fset *token.FileSet, obj types.Object) (*ast.CommentGroup, error)
- func Implementation(ctx context.Context, snapshot Snapshot, f FileHandle, pp protocol.Position) ([]protocol.Location, error)
- func InDir(dir, path string) bool
- func IncomingCalls(ctx context.Context, snapshot Snapshot, fh FileHandle, pos protocol.Position) ([]protocol.CallHierarchyIncomingCall, error)
- func InlayHint(ctx context.Context, snapshot Snapshot, fh FileHandle, pRng protocol.Range) ([]protocol.InlayHint, error)
- func IsCommandLineArguments(id PackageID) bool
- func IsGenerated(ctx context.Context, snapshot Snapshot, uri span.URI) bool
- func IsNonFatalGoModError(err error) bool
- func IsValidImport(pkgPath, importPkgPath PackagePath) bool
- func LensFuncs() map[command.Command]LensFunc
- func LinknameDefinition(ctx context.Context, snapshot Snapshot, fh FileHandle, from protocol.Position) ([]protocol.Location, error)
- func NarrowestPackageForFile(ctx context.Context, snapshot Snapshot, uri span.URI) (Package, *ParsedGoFile, error)
- func NewBuiltinSignature(ctx context.Context, s Snapshot, name string) (*signature, error)
- func NewSignature(ctx context.Context, s Snapshot, pkg Package, sig *types.Signature, ...) (*signature, error)
- func NodeContains(n ast.Node, pos token.Pos) bool
- func OutgoingCalls(ctx context.Context, snapshot Snapshot, fh FileHandle, pp protocol.Position) ([]protocol.CallHierarchyOutgoingCall, error)
- func PrepareCallHierarchy(ctx context.Context, snapshot Snapshot, fh FileHandle, pp protocol.Position) ([]protocol.CallHierarchyItem, error)
- func Qualifier(f *ast.File, pkg *types.Package, info *types.Info) types.Qualifier
- func References(ctx context.Context, snapshot Snapshot, fh FileHandle, pp protocol.Position, ...) ([]protocol.Location, error)
- func RemoveIntermediateTestVariants(pmetas *[]*Metadata)
- func Rename(ctx context.Context, snapshot Snapshot, f FileHandle, pp protocol.Position, ...) (map[span.URI][]protocol.TextEdit, bool, error)
- func SignatureHelp(ctx context.Context, snapshot Snapshot, fh FileHandle, ...) (*protocol.SignatureInformation, int, error)
- func SnapshotLabels(snapshot Snapshot) []label.Label
- func SortDiagnostics(d []*Diagnostic)
- func SortPostOrder(meta MetadataSource, ids []PackageID)
- func TestsAndBenchmarks(ctx context.Context, snapshot Snapshot, fh FileHandle) (testFns, error)
- func ToProtocolEdits(m *protocol.Mapper, edits []diff.Edit) ([]protocol.TextEdit, error)
- func TypeDefinition(ctx context.Context, snapshot Snapshot, fh FileHandle, ...) ([]protocol.Location, error)
- func WorkspaceSymbols(ctx context.Context, matcher SymbolMatcher, style SymbolStyle, views []View, ...) ([]protocol.SymbolInformation, error)
- type APIJSON
- type Analyzer
- type AnalyzerJSON
- type Annotation
- type BuildOptions
- type ClientOptions
- type CommandJSON
- type CompletionOptions
- type CriticalError
- type Diagnostic
- type DiagnosticOptions
- type DiagnosticSource
- type DiffFunction
- type DocumentationOptions
- type EnumKey
- type EnumKeys
- type EnumValue
- type FileAction
- type FileHandle
- type FileIdentity
- type FileKind
- type FileModification
- type FileSource
- type Filterer
- type FoldingRangeInfo
- type FormattingOptions
- type GlobalSnapshotID
- type Hash
- type Hint
- type HintJSON
- type Hooks
- type HoverJSON
- type HoverKind
- type ImportFix
- type ImportPath
- type ImportShortcut
- type InlayHintFunc
- type InlayHintOptions
- type InternalOptions
- type InvocationFlags
- type LensFunc
- type LensJSON
- type Matcher
- type MemoryMode
- type Metadata
- type MetadataQualifier
- type MetadataSource
- type NavigationOptions
- type OptionJSON
- type OptionResult
- type OptionResults
- type Options
- type Package
- type PackageID
- type PackageName
- type PackagePath
- type ParsedGoFile
- func (p ParsedGoFile) Fixed() bool
- func (pgf *ParsedGoFile) NodeLocation(node ast.Node) (protocol.Location, error)
- func (pgf *ParsedGoFile) NodeMappedRange(node ast.Node) (protocol.MappedRange, error)
- func (pgf *ParsedGoFile) NodeRange(node ast.Node) (protocol.Range, error)
- func (pgf *ParsedGoFile) PosLocation(start, end token.Pos) (protocol.Location, error)
- func (pgf *ParsedGoFile) PosMappedRange(start, end token.Pos) (protocol.MappedRange, error)
- func (pgf *ParsedGoFile) PosRange(start, end token.Pos) (protocol.Range, error)
- func (pgf *ParsedGoFile) PositionPos(p protocol.Position) (token.Pos, error)
- func (pgf *ParsedGoFile) RangePos(r protocol.Range) (token.Pos, token.Pos, error)
- type ParsedModule
- type ParsedWorkFile
- type PrepareItem
- type ServerOptions
- type Snapshot
- type SoftError
- type SuggestedFix
- type SuggestedFixFunc
- type Symbol
- type SymbolMatcher
- type SymbolScope
- type SymbolStyle
- type TidiedModule
- type UIOptions
- type UserOptions
- type View
- type VulncheckMode
- type XrefIndex
Constants ¶
const ( FillStruct = "fill_struct" StubMethods = "stub_methods" UndeclaredName = "undeclared_name" ExtractVariable = "extract_variable" ExtractFunction = "extract_function" ExtractMethod = "extract_method" InvertIfCondition = "invert_if_condition" )
const ( ParameterNames = "parameterNames" AssignVariableTypes = "assignVariableTypes" ConstantValues = "constantValues" RangeVariableTypes = "rangeVariableTypes" CompositeLiteralTypes = "compositeLiteralTypes" CompositeLiteralFieldNames = "compositeLiteralFields" FunctionTypeParameters = "functionTypeParameters" )
const ( UnknownFileAction = FileAction(iota) Open Change Close Save Create Delete InvalidateMetadata )
const ( // ParseHeader specifies that the main package declaration and imports are needed. // This is the mode used when attempting to examine the package graph structure. ParseHeader = parser.AllErrors | parser.ParseComments | parser.ImportsOnly | SkipObjectResolution // ParseFull specifies the full AST is needed. // This is used for files of direct interest where the entire contents must // be considered. ParseFull = parser.AllErrors | parser.ParseComments | SkipObjectResolution )
Common parse modes; these should be reused wherever possible to increase cache hits.
const ( // UnknownKind is a file type we don't know about. UnknownKind = FileKind(iota) // Go is a normal go source file. Go // Mod is a go.mod file. Mod // Sum is a go.sum file. Sum // Tmpl is a template file. Tmpl // Work is a go.work file. Work )
const SkipObjectResolution = parser.SkipObjectResolution
Variables ¶
var AllInlayHints = map[string]*Hint{ AssignVariableTypes: { Name: AssignVariableTypes, Doc: "Enable/disable inlay hints for variable types in assign statements:\n```go\n\ti/* int*/, j/* int*/ := 0, len(r)-1\n```", Run: assignVariableTypes, }, ParameterNames: { Name: ParameterNames, Doc: "Enable/disable inlay hints for parameter names:\n```go\n\tparseInt(/* str: */ \"123\", /* radix: */ 8)\n```", Run: parameterNames, }, ConstantValues: { Name: ConstantValues, Doc: "Enable/disable inlay hints for constant values:\n```go\n\tconst (\n\t\tKindNone Kind = iota/* = 0*/\n\t\tKindPrint/* = 1*/\n\t\tKindPrintf/* = 2*/\n\t\tKindErrorf/* = 3*/\n\t)\n```", Run: constantValues, }, RangeVariableTypes: { Name: RangeVariableTypes, Doc: "Enable/disable inlay hints for variable types in range statements:\n```go\n\tfor k/* int*/, v/* string*/ := range []string{} {\n\t\tfmt.Println(k, v)\n\t}\n```", Run: rangeVariableTypes, }, CompositeLiteralTypes: { Name: CompositeLiteralTypes, Doc: "Enable/disable inlay hints for composite literal types:\n```go\n\tfor _, c := range []struct {\n\t\tin, want string\n\t}{\n\t\t/*struct{ in string; want string }*/{\"Hello, world\", \"dlrow ,olleH\"},\n\t}\n```", Run: compositeLiteralTypes, }, CompositeLiteralFieldNames: { Name: CompositeLiteralFieldNames, Doc: "Enable/disable inlay hints for composite literal field names:\n```go\n\t{/*in: */\"Hello, world\", /*want: */\"dlrow ,olleH\"}\n```", Run: compositeLiteralFields, }, FunctionTypeParameters: { Name: FunctionTypeParameters, Doc: "Enable/disable inlay hints for implicit type parameters on generic functions:\n```go\n\tmyFoo/*[int, string]*/(1, \"hello\")\n```", Run: funcTypeParams, }, }
var ErrNoIdentFound = errors.New("no identifier found")
ErrNoIdentFound is error returned when no identifier is found at a particular position
var ErrNoLinkname = errors.New("no linkname directive found")
ErrNoLinkname is returned by LinknameDefinition when no linkname directive is found at a particular position. As such it indicates that other definitions could be worth checking.
var ErrNoModOnDisk = errors.New("go.mod file is not on disk")
var ErrTmpModfileUnsupported = errors.New("-modfile is unsupported for this Go version")
var ErrViewExists = errors.New("view already exists for session")
var GeneratedAPIJSON = &APIJSON{ Options: map[string][]*OptionJSON{ "User": { { Name: "buildFlags", Type: "[]string", Doc: "buildFlags is the set of flags passed on to the build system when invoked.\nIt is applied to queries like `go list`, which is used when discovering files.\nThe most common use is to set `-tags`.\n", Default: "[]", Hierarchy: "build", }, { Name: "env", Type: "map[string]string", Doc: "env adds environment variables to external commands run by `gopls`, most notably `go list`.\n", Default: "{}", Hierarchy: "build", }, { Name: "directoryFilters", Type: "[]string", Doc: "directoryFilters can be used to exclude unwanted directories from the\nworkspace. By default, all directories are included. Filters are an\noperator, `+` to include and `-` to exclude, followed by a path prefix\nrelative to the workspace folder. They are evaluated in order, and\nthe last filter that applies to a path controls whether it is included.\nThe path prefix can be empty, so an initial `-` excludes everything.\n\nDirectoryFilters also supports the `**` operator to match 0 or more directories.\n\nExamples:\n\nExclude node_modules at current depth: `-node_modules`\n\nExclude node_modules at any depth: `-**/node_modules`\n\nInclude only project_a: `-` (exclude everything), `+project_a`\n\nInclude only project_a, but not node_modules inside it: `-`, `+project_a`, `-project_a/node_modules`\n", Default: "[\"-**/node_modules\"]", Hierarchy: "build", }, { Name: "templateExtensions", Type: "[]string", Doc: "templateExtensions gives the extensions of file names that are treateed\nas template files. (The extension\nis the part of the file name after the final dot.)\n", Default: "[]", Hierarchy: "build", }, { Name: "memoryMode", Type: "enum", Doc: "memoryMode controls the tradeoff `gopls` makes between memory usage and\ncorrectness.\n\nValues other than `Normal` are untested and may break in surprising ways.\n", EnumValues: []EnumValue{ { Value: "\"DegradeClosed\"", Doc: "`\"DegradeClosed\"`: In DegradeClosed mode, `gopls` will collect less information about\npackages without open files. As a result, features like Find\nReferences and Rename will miss results in such packages.\n", }, {Value: "\"Normal\""}, }, Default: "\"Normal\"", Status: "experimental", Hierarchy: "build", }, { Name: "expandWorkspaceToModule", Type: "bool", Doc: "expandWorkspaceToModule instructs `gopls` to adjust the scope of the\nworkspace to find the best available module root. `gopls` first looks for\na go.mod file in any parent directory of the workspace folder, expanding\nthe scope to that directory if it exists. If no viable parent directory is\nfound, gopls will check if there is exactly one child directory containing\na go.mod file, narrowing the scope to that directory if it exists.\n", Default: "true", Status: "experimental", Hierarchy: "build", }, { Name: "allowModfileModifications", Type: "bool", Doc: "allowModfileModifications disables -mod=readonly, allowing imports from\nout-of-scope modules. This option will eventually be removed.\n", Default: "false", Status: "experimental", Hierarchy: "build", }, { Name: "allowImplicitNetworkAccess", Type: "bool", Doc: "allowImplicitNetworkAccess disables GOPROXY=off, allowing implicit module\ndownloads rather than requiring user action. This option will eventually\nbe removed.\n", Default: "false", Status: "experimental", Hierarchy: "build", }, { Name: "standaloneTags", Type: "[]string", Doc: "standaloneTags specifies a set of build constraints that identify\nindividual Go source files that make up the entire main package of an\nexecutable.\n\nA common example of standalone main files is the convention of using the\ndirective `//go:build ignore` to denote files that are not intended to be\nincluded in any package, for example because they are invoked directly by\nthe developer using `go run`.\n\nGopls considers a file to be a standalone main file if and only if it has\npackage name \"main\" and has a build directive of the exact form\n\"//go:build tag\" or \"// +build tag\", where tag is among the list of tags\nconfigured by this setting. Notably, if the build constraint is more\ncomplicated than a simple tag (such as the composite constraint\n`//go:build tag && go1.18`), the file is not considered to be a standalone\nmain file.\n\nThis setting is only supported when gopls is built with Go 1.16 or later.\n", Default: "[\"ignore\"]", Hierarchy: "build", }, { Name: "hoverKind", Type: "enum", Doc: "hoverKind controls the information that appears in the hover text.\nSingleLine and Structured are intended for use only by authors of editor plugins.\n", EnumValues: []EnumValue{ {Value: "\"FullDocumentation\""}, {Value: "\"NoDocumentation\""}, {Value: "\"SingleLine\""}, { Value: "\"Structured\"", Doc: "`\"Structured\"` is an experimental setting that returns a structured hover format.\nThis format separates the signature from the documentation, so that the client\ncan do more manipulation of these fields.\n\nThis should only be used by clients that support this behavior.\n", }, {Value: "\"SynopsisDocumentation\""}, }, Default: "\"FullDocumentation\"", Hierarchy: "ui.documentation", }, { Name: "linkTarget", Type: "string", Doc: "linkTarget controls where documentation links go.\nIt might be one of:\n\n* `\"godoc.org\"`\n* `\"pkg.go.dev\"`\n\nIf company chooses to use its own `godoc.org`, its address can be used as well.\n\nModules matching the GOPRIVATE environment variable will not have\ndocumentation links in hover.\n", Default: "\"pkg.go.dev\"", Hierarchy: "ui.documentation", }, { Name: "linksInHover", Type: "bool", Doc: "linksInHover toggles the presence of links to documentation in hover.\n", Default: "true", Hierarchy: "ui.documentation", }, { Name: "usePlaceholders", Type: "bool", Doc: "placeholders enables placeholders for function parameters or struct\nfields in completion responses.\n", Default: "false", Hierarchy: "ui.completion", }, { Name: "completionBudget", Type: "time.Duration", Doc: "completionBudget is the soft latency goal for completion requests. Most\nrequests finish in a couple milliseconds, but in some cases deep\ncompletions can take much longer. As we use up our budget we\ndynamically reduce the search scope to ensure we return timely\nresults. Zero means unlimited.\n", Default: "\"100ms\"", Status: "debug", Hierarchy: "ui.completion", }, { Name: "matcher", Type: "enum", Doc: "matcher sets the algorithm that is used when calculating completion\ncandidates.\n", EnumValues: []EnumValue{ {Value: "\"CaseInsensitive\""}, {Value: "\"CaseSensitive\""}, {Value: "\"Fuzzy\""}, }, Default: "\"Fuzzy\"", Status: "advanced", Hierarchy: "ui.completion", }, { Name: "experimentalPostfixCompletions", Type: "bool", Doc: "experimentalPostfixCompletions enables artificial method snippets\nsuch as \"someSlice.sort!\".\n", Default: "true", Status: "experimental", Hierarchy: "ui.completion", }, { Name: "importShortcut", Type: "enum", Doc: "importShortcut specifies whether import statements should link to\ndocumentation or go to definitions.\n", EnumValues: []EnumValue{ {Value: "\"Both\""}, {Value: "\"Definition\""}, {Value: "\"Link\""}, }, Default: "\"Both\"", Hierarchy: "ui.navigation", }, { Name: "symbolMatcher", Type: "enum", Doc: "symbolMatcher sets the algorithm that is used when finding workspace symbols.\n", EnumValues: []EnumValue{ {Value: "\"CaseInsensitive\""}, {Value: "\"CaseSensitive\""}, {Value: "\"FastFuzzy\""}, {Value: "\"Fuzzy\""}, }, Default: "\"FastFuzzy\"", Status: "advanced", Hierarchy: "ui.navigation", }, { Name: "symbolStyle", Type: "enum", Doc: "symbolStyle controls how symbols are qualified in symbol responses.\n\nExample Usage:\n\n```json5\n\"gopls\": {\n...\n \"symbolStyle\": \"Dynamic\",\n...\n}\n```\n", EnumValues: []EnumValue{ { Value: "\"Dynamic\"", Doc: "`\"Dynamic\"` uses whichever qualifier results in the highest scoring\nmatch for the given symbol query. Here a \"qualifier\" is any \"/\" or \".\"\ndelimited suffix of the fully qualified symbol. i.e. \"to/pkg.Foo.Field\" or\njust \"Foo.Field\".\n", }, { Value: "\"Full\"", Doc: "`\"Full\"` is fully qualified symbols, i.e.\n\"path/to/pkg.Foo.Field\".\n", }, { Value: "\"Package\"", Doc: "`\"Package\"` is package qualified symbols i.e.\n\"pkg.Foo.Field\".\n", }, }, Default: "\"Dynamic\"", Status: "advanced", Hierarchy: "ui.navigation", }, { Name: "symbolScope", Type: "enum", Doc: "symbolScope controls which packages are searched for workspace/symbol\nrequests. The default value, \"workspace\", searches only workspace\npackages. The legacy behavior, \"all\", causes all loaded packages to be\nsearched, including dependencies; this is more expensive and may return\nunwanted results.\n", EnumValues: []EnumValue{ { Value: "\"all\"", Doc: "`\"all\"` matches symbols in any loaded package, including\ndependencies.\n", }, { Value: "\"workspace\"", Doc: "`\"workspace\"` matches symbols in workspace packages only.\n", }, }, Default: "\"all\"", Hierarchy: "ui.navigation", }, { Name: "analyses", Type: "map[string]bool", Doc: "analyses specify analyses that the user would like to enable or disable.\nA map of the names of analysis passes that should be enabled/disabled.\nA full list of analyzers that gopls uses can be found in\n[analyzers.md](https://github.com/golang/tools/blob/master/gopls/doc/analyzers.md).\n\nExample Usage:\n\n```json5\n...\n\"analyses\": {\n \"unreachable\": false, // Disable the unreachable analyzer.\n \"unusedparams\": true // Enable the unusedparams analyzer.\n}\n...\n```\n", EnumKeys: EnumKeys{ ValueType: "bool", Keys: []EnumKey{ { Name: "\"asmdecl\"", Doc: "report mismatches between assembly files and Go declarations", Default: "true", }, { Name: "\"assign\"", Doc: "check for useless assignments\n\nThis checker reports assignments of the form x = x or a[i] = a[i].\nThese are almost always useless, and even when they aren't they are\nusually a mistake.", Default: "true", }, { Name: "\"atomic\"", Doc: "check for common mistakes using the sync/atomic package\n\nThe atomic checker looks for assignment statements of the form:\n\n\tx = atomic.AddUint64(&x, 1)\n\nwhich are not atomic.", Default: "true", }, { Name: "\"atomicalign\"", Doc: "check for non-64-bits-aligned arguments to sync/atomic functions", Default: "true", }, { Name: "\"bools\"", Doc: "check for common mistakes involving boolean operators", Default: "true", }, { Name: "\"buildtag\"", Doc: "check //go:build and // +build directives", Default: "true", }, { Name: "\"cgocall\"", Doc: "detect some violations of the cgo pointer passing rules\n\nCheck for invalid cgo pointer passing.\nThis looks for code that uses cgo to call C code passing values\nwhose types are almost always invalid according to the cgo pointer\nsharing rules.\nSpecifically, it warns about attempts to pass a Go chan, map, func,\nor slice to C, either directly, or via a pointer, array, or struct.", Default: "true", }, { Name: "\"composites\"", Doc: "check for unkeyed composite literals\n\nThis analyzer reports a diagnostic for composite literals of struct\ntypes imported from another package that do not use the field-keyed\nsyntax. Such literals are fragile because the addition of a new field\n(even if unexported) to the struct will cause compilation to fail.\n\nAs an example,\n\n\terr = &net.DNSConfigError{err}\n\nshould be replaced by:\n\n\terr = &net.DNSConfigError{Err: err}\n", Default: "true", }, { Name: "\"copylocks\"", Doc: "check for locks erroneously passed by value\n\nInadvertently copying a value containing a lock, such as sync.Mutex or\nsync.WaitGroup, may cause both copies to malfunction. Generally such\nvalues should be referred to through a pointer.", Default: "true", }, { Name: "\"deepequalerrors\"", Doc: "check for calls of reflect.DeepEqual on error values\n\nThe deepequalerrors checker looks for calls of the form:\n\n reflect.DeepEqual(err1, err2)\n\nwhere err1 and err2 are errors. Using reflect.DeepEqual to compare\nerrors is discouraged.", Default: "true", }, { Name: "\"directive\"", Doc: "check Go toolchain directives such as //go:debug\n\nThis analyzer checks for problems with known Go toolchain directives\nin all Go source files in a package directory, even those excluded by\n//go:build constraints, and all non-Go source files too.\n\nFor //go:debug (see https://go.dev/doc/godebug), the analyzer checks\nthat the directives are placed only in Go source files, only above the\npackage comment, and only in package main or *_test.go files.\n\nSupport for other known directives may be added in the future.\n\nThis analyzer does not check //go:build, which is handled by the\nbuildtag analyzer.\n", Default: "true", }, { Name: "\"embed\"", Doc: "check for //go:embed directive import\n\nThis analyzer checks that the embed package is imported when source code contains //go:embed comment directives.\nThe embed package must be imported for //go:embed directives to function.import _ \"embed\".", Default: "true", }, { Name: "\"errorsas\"", Doc: "report passing non-pointer or non-error values to errors.As\n\nThe errorsas analysis reports calls to errors.As where the type\nof the second argument is not a pointer to a type implementing error.", Default: "true", }, { Name: "\"fieldalignment\"", Doc: "find structs that would use less memory if their fields were sorted\n\nThis analyzer find structs that can be rearranged to use less memory, and provides\na suggested edit with the most compact order.\n\nNote that there are two different diagnostics reported. One checks struct size,\nand the other reports \"pointer bytes\" used. Pointer bytes is how many bytes of the\nobject that the garbage collector has to potentially scan for pointers, for example:\n\n\tstruct { uint32; string }\n\nhave 16 pointer bytes because the garbage collector has to scan up through the string's\ninner pointer.\n\n\tstruct { string; *uint32 }\n\nhas 24 pointer bytes because it has to scan further through the *uint32.\n\n\tstruct { string; uint32 }\n\nhas 8 because it can stop immediately after the string pointer.\n\nBe aware that the most compact order is not always the most efficient.\nIn rare cases it may cause two variables each updated by its own goroutine\nto occupy the same CPU cache line, inducing a form of memory contention\nknown as \"false sharing\" that slows down both goroutines.\n", Default: "false", }, { Name: "\"httpresponse\"", Doc: "check for mistakes using HTTP responses\n\nA common mistake when using the net/http package is to defer a function\ncall to close the http.Response Body before checking the error that\ndetermines whether the response is valid:\n\n\tresp, err := http.Head(url)\n\tdefer resp.Body.Close()\n\tif err != nil {\n\t\tlog.Fatal(err)\n\t}\n\t// (defer statement belongs here)\n\nThis checker helps uncover latent nil dereference bugs by reporting a\ndiagnostic for such mistakes.", Default: "true", }, { Name: "\"ifaceassert\"", Doc: "detect impossible interface-to-interface type assertions\n\nThis checker flags type assertions v.(T) and corresponding type-switch cases\nin which the static type V of v is an interface that cannot possibly implement\nthe target interface T. This occurs when V and T contain methods with the same\nname but different signatures. Example:\n\n\tvar v interface {\n\t\tRead()\n\t}\n\t_ = v.(io.Reader)\n\nThe Read method in v has a different signature than the Read method in\nio.Reader, so this assertion cannot succeed.", Default: "true", }, { Name: "\"loopclosure\"", Doc: "check references to loop variables from within nested functions\n\nThis analyzer reports places where a function literal references the\niteration variable of an enclosing loop, and the loop calls the function\nin such a way (e.g. with go or defer) that it may outlive the loop\niteration and possibly observe the wrong value of the variable.\n\nIn this example, all the deferred functions run after the loop has\ncompleted, so all observe the final value of v.\n\n\tfor _, v := range list {\n\t defer func() {\n\t use(v) // incorrect\n\t }()\n\t}\n\nOne fix is to create a new variable for each iteration of the loop:\n\n\tfor _, v := range list {\n\t v := v // new var per iteration\n\t defer func() {\n\t use(v) // ok\n\t }()\n\t}\n\nThe next example uses a go statement and has a similar problem.\nIn addition, it has a data race because the loop updates v\nconcurrent with the goroutines accessing it.\n\n\tfor _, v := range elem {\n\t go func() {\n\t use(v) // incorrect, and a data race\n\t }()\n\t}\n\nA fix is the same as before. The checker also reports problems\nin goroutines started by golang.org/x/sync/errgroup.Group.\nA hard-to-spot variant of this form is common in parallel tests:\n\n\tfunc Test(t *testing.T) {\n\t for _, test := range tests {\n\t t.Run(test.name, func(t *testing.T) {\n\t t.Parallel()\n\t use(test) // incorrect, and a data race\n\t })\n\t }\n\t}\n\nThe t.Parallel() call causes the rest of the function to execute\nconcurrent with the loop.\n\nThe analyzer reports references only in the last statement,\nas it is not deep enough to understand the effects of subsequent\nstatements that might render the reference benign.\n(\"Last statement\" is defined recursively in compound\nstatements such as if, switch, and select.)\n\nSee: https://golang.org/doc/go_faq.html#closures_and_goroutines", Default: "true", }, { Name: "\"lostcancel\"", Doc: "check cancel func returned by context.WithCancel is called\n\nThe cancellation function returned by context.WithCancel, WithTimeout,\nand WithDeadline must be called or the new context will remain live\nuntil its parent context is cancelled.\n(The background context is never cancelled.)", Default: "true", }, { Name: "\"nilfunc\"", Doc: "check for useless comparisons between functions and nil\n\nA useless comparison is one like f == nil as opposed to f() == nil.", Default: "true", }, { Name: "\"nilness\"", Doc: "check for redundant or impossible nil comparisons\n\nThe nilness checker inspects the control-flow graph of each function in\na package and reports nil pointer dereferences, degenerate nil\npointers, and panics with nil values. A degenerate comparison is of the form\nx==nil or x!=nil where x is statically known to be nil or non-nil. These are\noften a mistake, especially in control flow related to errors. Panics with nil\nvalues are checked because they are not detectable by\n\n\tif r := recover(); r != nil {\n\nThis check reports conditions such as:\n\n\tif f == nil { // impossible condition (f is a function)\n\t}\n\nand:\n\n\tp := &v\n\t...\n\tif p != nil { // tautological condition\n\t}\n\nand:\n\n\tif p == nil {\n\t\tprint(*p) // nil dereference\n\t}\n\nand:\n\n\tif p == nil {\n\t\tpanic(p)\n\t}", Default: "false", }, { Name: "\"printf\"", Doc: "check consistency of Printf format strings and arguments\n\nThe check applies to calls of the formatting functions such as\n[fmt.Printf] and [fmt.Sprintf], as well as any detected wrappers of\nthose functions.\n\nIn this example, the %d format operator requires an integer operand:\n\n\tfmt.Printf(\"%d\", \"hello\") // fmt.Printf format %d has arg \"hello\" of wrong type string\n\nSee the documentation of the fmt package for the complete set of\nformat operators and their operand types.\n\nTo enable printf checking on a function that is not found by this\nanalyzer's heuristics (for example, because control is obscured by\ndynamic method calls), insert a bogus call:\n\n\tfunc MyPrintf(format string, args ...any) {\n\t\tif false {\n\t\t\t_ = fmt.Sprintf(format, args...) // enable printf checker\n\t\t}\n\t\t...\n\t}\n\nThe -funcs flag specifies a comma-separated list of names of additional\nknown formatting functions or methods. If the name contains a period,\nit must denote a specific function using one of the following forms:\n\n\tdir/pkg.Function\n\tdir/pkg.Type.Method\n\t(*dir/pkg.Type).Method\n\nOtherwise the name is interpreted as a case-insensitive unqualified\nidentifier such as \"errorf\". Either way, if a listed name ends in f, the\nfunction is assumed to be Printf-like, taking a format string before the\nargument list. Otherwise it is assumed to be Print-like, taking a list\nof arguments with no format string.", Default: "true", }, { Name: "\"shadow\"", Doc: "check for possible unintended shadowing of variables\n\nThis analyzer check for shadowed variables.\nA shadowed variable is a variable declared in an inner scope\nwith the same name and type as a variable in an outer scope,\nand where the outer variable is mentioned after the inner one\nis declared.\n\n(This definition can be refined; the module generates too many\nfalse positives and is not yet enabled by default.)\n\nFor example:\n\n\tfunc BadRead(f *os.File, buf []byte) error {\n\t\tvar err error\n\t\tfor {\n\t\t\tn, err := f.Read(buf) // shadows the function variable 'err'\n\t\t\tif err != nil {\n\t\t\t\tbreak // causes return of wrong value\n\t\t\t}\n\t\t\tfoo(buf)\n\t\t}\n\t\treturn err\n\t}", Default: "false", }, { Name: "\"shift\"", Doc: "check for shifts that equal or exceed the width of the integer", Default: "true", }, { Name: "\"simplifycompositelit\"", Doc: "check for composite literal simplifications\n\nAn array, slice, or map composite literal of the form:\n\t[]T{T{}, T{}}\nwill be simplified to:\n\t[]T{{}, {}}\n\nThis is one of the simplifications that \"gofmt -s\" applies.", Default: "true", }, { Name: "\"simplifyrange\"", Doc: "check for range statement simplifications\n\nA range of the form:\n\tfor x, _ = range v {...}\nwill be simplified to:\n\tfor x = range v {...}\n\nA range of the form:\n\tfor _ = range v {...}\nwill be simplified to:\n\tfor range v {...}\n\nThis is one of the simplifications that \"gofmt -s\" applies.", Default: "true", }, { Name: "\"simplifyslice\"", Doc: "check for slice simplifications\n\nA slice expression of the form:\n\ts[a:len(s)]\nwill be simplified to:\n\ts[a:]\n\nThis is one of the simplifications that \"gofmt -s\" applies.", Default: "true", }, { Name: "\"sortslice\"", Doc: "check the argument type of sort.Slice\n\nsort.Slice requires an argument of a slice type. Check that\nthe interface{} value passed to sort.Slice is actually a slice.", Default: "true", }, { Name: "\"stdmethods\"", Doc: "check signature of methods of well-known interfaces\n\nSometimes a type may be intended to satisfy an interface but may fail to\ndo so because of a mistake in its method signature.\nFor example, the result of this WriteTo method should be (int64, error),\nnot error, to satisfy io.WriterTo:\n\n\ttype myWriterTo struct{...}\n\tfunc (myWriterTo) WriteTo(w io.Writer) error { ... }\n\nThis check ensures that each method whose name matches one of several\nwell-known interface methods from the standard library has the correct\nsignature for that interface.\n\nChecked method names include:\n\n\tFormat GobEncode GobDecode MarshalJSON MarshalXML\n\tPeek ReadByte ReadFrom ReadRune Scan Seek\n\tUnmarshalJSON UnreadByte UnreadRune WriteByte\n\tWriteTo", Default: "true", }, { Name: "\"stringintconv\"", Doc: "check for string(int) conversions\n\nThis checker flags conversions of the form string(x) where x is an integer\n(but not byte or rune) type. Such conversions are discouraged because they\nreturn the UTF-8 representation of the Unicode code point x, and not a decimal\nstring representation of x as one might expect. Furthermore, if x denotes an\ninvalid code point, the conversion cannot be statically rejected.\n\nFor conversions that intend on using the code point, consider replacing them\nwith string(rune(x)). Otherwise, strconv.Itoa and its equivalents return the\nstring representation of the value in the desired base.", Default: "true", }, { Name: "\"structtag\"", Doc: "check that struct field tags conform to reflect.StructTag.Get\n\nAlso report certain struct tags (json, xml) used with unexported fields.", Default: "true", }, { Name: "\"testinggoroutine\"", Doc: "report calls to (*testing.T).Fatal from goroutines started by a test.\n\nFunctions that abruptly terminate a test, such as the Fatal, Fatalf, FailNow, and\nSkip{,f,Now} methods of *testing.T, must be called from the test goroutine itself.\nThis checker detects calls to these functions that occur within a goroutine\nstarted by the test. For example:\n\n\tfunc TestFoo(t *testing.T) {\n\t go func() {\n\t t.Fatal(\"oops\") // error: (*T).Fatal called from non-test goroutine\n\t }()\n\t}", Default: "true", }, { Name: "\"tests\"", Doc: "check for common mistaken usages of tests and examples\n\nThe tests checker walks Test, Benchmark, Fuzzing and Example functions checking\nmalformed names, wrong signatures and examples documenting non-existent\nidentifiers.\n\nPlease see the documentation for package testing in golang.org/pkg/testing\nfor the conventions that are enforced for Tests, Benchmarks, and Examples.", Default: "true", }, { Name: "\"timeformat\"", Doc: "check for calls of (time.Time).Format or time.Parse with 2006-02-01\n\nThe timeformat checker looks for time formats with the 2006-02-01 (yyyy-dd-mm)\nformat. Internationally, \"yyyy-dd-mm\" does not occur in common calendar date\nstandards, and so it is more likely that 2006-01-02 (yyyy-mm-dd) was intended.", Default: "true", }, { Name: "\"unmarshal\"", Doc: "report passing non-pointer or non-interface values to unmarshal\n\nThe unmarshal analysis reports calls to functions such as json.Unmarshal\nin which the argument type is not a pointer or an interface.", Default: "true", }, { Name: "\"unreachable\"", Doc: "check for unreachable code\n\nThe unreachable analyzer finds statements that execution can never reach\nbecause they are preceded by an return statement, a call to panic, an\ninfinite loop, or similar constructs.", Default: "true", }, { Name: "\"unsafeptr\"", Doc: "check for invalid conversions of uintptr to unsafe.Pointer\n\nThe unsafeptr analyzer reports likely incorrect uses of unsafe.Pointer\nto convert integers to pointers. A conversion from uintptr to\nunsafe.Pointer is invalid if it implies that there is a uintptr-typed\nword in memory that holds a pointer value, because that word will be\ninvisible to stack copying and to the garbage collector.", Default: "true", }, { Name: "\"unusedparams\"", Doc: "check for unused parameters of functions\n\nThe unusedparams analyzer checks functions to see if there are\nany parameters that are not being used.\n\nTo reduce false positives it ignores:\n- methods\n- parameters that do not have a name or are underscored\n- functions in test files\n- functions with empty bodies or those with just a return stmt", Default: "false", }, { Name: "\"unusedresult\"", Doc: "check for unused results of calls to some functions\n\nSome functions like fmt.Errorf return a result and have no side\neffects, so it is always a mistake to discard the result. Other\nfunctions may return an error that must not be ignored, or a cleanup\noperation that must be called. This analyzer reports calls to\nfunctions like these when the result of the call is ignored.\n\nThe set of functions may be controlled using flags.", Default: "true", }, { Name: "\"unusedwrite\"", Doc: "checks for unused writes\n\nThe analyzer reports instances of writes to struct fields and\narrays that are never read. Specifically, when a struct object\nor an array is copied, its elements are copied implicitly by\nthe compiler, and any element write to this copy does nothing\nwith the original object.\n\nFor example:\n\n\ttype T struct { x int }\n\n\tfunc f(input []T) {\n\t\tfor i, v := range input { // v is a copy\n\t\t\tv.x = i // unused write to field x\n\t\t}\n\t}\n\nAnother example is about non-pointer receiver:\n\n\ttype T struct { x int }\n\n\tfunc (t T) f() { // t is a copy\n\t\tt.x = i // unused write to field x\n\t}", Default: "false", }, { Name: "\"useany\"", Doc: "check for constraints that could be simplified to \"any\"", Default: "false", }, { Name: "\"fillreturns\"", Doc: "suggest fixes for errors due to an incorrect number of return values\n\nThis checker provides suggested fixes for type errors of the\ntype \"wrong number of return values (want %d, got %d)\". For example:\n\tfunc m() (int, string, *bool, error) {\n\t\treturn\n\t}\nwill turn into\n\tfunc m() (int, string, *bool, error) {\n\t\treturn 0, \"\", nil, nil\n\t}\n\nThis functionality is similar to https://github.com/sqs/goreturns.\n", Default: "true", }, { Name: "\"nonewvars\"", Doc: "suggested fixes for \"no new vars on left side of :=\"\n\nThis checker provides suggested fixes for type errors of the\ntype \"no new vars on left side of :=\". For example:\n\tz := 1\n\tz := 2\nwill turn into\n\tz := 1\n\tz = 2\n", Default: "true", }, { Name: "\"noresultvalues\"", Doc: "suggested fixes for unexpected return values\n\nThis checker provides suggested fixes for type errors of the\ntype \"no result values expected\" or \"too many return values\".\nFor example:\n\tfunc z() { return nil }\nwill turn into\n\tfunc z() { return }\n", Default: "true", }, { Name: "\"undeclaredname\"", Doc: "suggested fixes for \"undeclared name: <>\"\n\nThis checker provides suggested fixes for type errors of the\ntype \"undeclared name: <>\". It will either insert a new statement,\nsuch as:\n\n\"<> := \"\n\nor a new function declaration, such as:\n\nfunc <>(inferred parameters) {\n\tpanic(\"implement me!\")\n}\n", Default: "true", }, { Name: "\"unusedvariable\"", Doc: "check for unused variables\n\nThe unusedvariable analyzer suggests fixes for unused variables errors.\n", Default: "false", }, { Name: "\"fillstruct\"", Doc: "note incomplete struct initializations\n\nThis analyzer provides diagnostics for any struct literals that do not have\nany fields initialized. Because the suggested fix for this analysis is\nexpensive to compute, callers should compute it separately, using the\nSuggestedFix function below.\n", Default: "true", }, { Name: "\"infertypeargs\"", Doc: "check for unnecessary type arguments in call expressions\n\nExplicit type arguments may be omitted from call expressions if they can be\ninferred from function arguments, or from other type arguments:\n\n\tfunc f[T any](T) {}\n\t\n\tfunc _() {\n\t\tf[string](\"foo\") // string could be inferred\n\t}\n", Default: "true", }, { Name: "\"stubmethods\"", Doc: "stub methods analyzer\n\nThis analyzer generates method stubs for concrete types\nin order to implement a target interface", Default: "true", }, }, }, Default: "{}", Hierarchy: "ui.diagnostic", }, { Name: "staticcheck", Type: "bool", Doc: "staticcheck enables additional analyses from staticcheck.io.\nThese analyses are documented on\n[Staticcheck's website](https://staticcheck.io/docs/checks/).\n", Default: "false", Status: "experimental", Hierarchy: "ui.diagnostic", }, { Name: "annotations", Type: "map[string]bool", Doc: "annotations specifies the various kinds of optimization diagnostics\nthat should be reported by the gc_details command.\n", EnumKeys: EnumKeys{ ValueType: "bool", Keys: []EnumKey{ { Name: "\"bounds\"", Doc: "`\"bounds\"` controls bounds checking diagnostics.\n", Default: "true", }, { Name: "\"escape\"", Doc: "`\"escape\"` controls diagnostics about escape choices.\n", Default: "true", }, { Name: "\"inline\"", Doc: "`\"inline\"` controls diagnostics about inlining choices.\n", Default: "true", }, { Name: "\"nil\"", Doc: "`\"nil\"` controls nil checks.\n", Default: "true", }, }, }, Default: "{\"bounds\":true,\"escape\":true,\"inline\":true,\"nil\":true}", Status: "experimental", Hierarchy: "ui.diagnostic", }, { Name: "vulncheck", Type: "enum", Doc: "vulncheck enables vulnerability scanning.\n", EnumValues: []EnumValue{ { Value: "\"Imports\"", Doc: "`\"Imports\"`: In Imports mode, `gopls` will report vulnerabilities that affect packages\ndirectly and indirectly used by the analyzed main module.\n", }, { Value: "\"Off\"", Doc: "`\"Off\"`: Disable vulnerability analysis.\n", }, }, Default: "\"Off\"", Status: "experimental", Hierarchy: "ui.diagnostic", }, { Name: "diagnosticsDelay", Type: "time.Duration", Doc: "diagnosticsDelay controls the amount of time that gopls waits\nafter the most recent file modification before computing deep diagnostics.\nSimple diagnostics (parsing and type-checking) are always run immediately\non recently modified packages.\n\nThis option must be set to a valid duration string, for example `\"250ms\"`.\n", Default: "\"1s\"", Status: "advanced", Hierarchy: "ui.diagnostic", }, { Name: "hints", Type: "map[string]bool", Doc: "hints specify inlay hints that users want to see. A full list of hints\nthat gopls uses can be found in\n[inlayHints.md](https://github.com/golang/tools/blob/master/gopls/doc/inlayHints.md).\n", EnumKeys: EnumKeys{Keys: []EnumKey{ { Name: "\"assignVariableTypes\"", Doc: "Enable/disable inlay hints for variable types in assign statements:\n```go\n\ti/* int*/, j/* int*/ := 0, len(r)-1\n```", Default: "false", }, { Name: "\"compositeLiteralFields\"", Doc: "Enable/disable inlay hints for composite literal field names:\n```go\n\t{/*in: */\"Hello, world\", /*want: */\"dlrow ,olleH\"}\n```", Default: "false", }, { Name: "\"compositeLiteralTypes\"", Doc: "Enable/disable inlay hints for composite literal types:\n```go\n\tfor _, c := range []struct {\n\t\tin, want string\n\t}{\n\t\t/*struct{ in string; want string }*/{\"Hello, world\", \"dlrow ,olleH\"},\n\t}\n```", Default: "false", }, { Name: "\"constantValues\"", Doc: "Enable/disable inlay hints for constant values:\n```go\n\tconst (\n\t\tKindNone Kind = iota/* = 0*/\n\t\tKindPrint/* = 1*/\n\t\tKindPrintf/* = 2*/\n\t\tKindErrorf/* = 3*/\n\t)\n```", Default: "false", }, { Name: "\"functionTypeParameters\"", Doc: "Enable/disable inlay hints for implicit type parameters on generic functions:\n```go\n\tmyFoo/*[int, string]*/(1, \"hello\")\n```", Default: "false", }, { Name: "\"parameterNames\"", Doc: "Enable/disable inlay hints for parameter names:\n```go\n\tparseInt(/* str: */ \"123\", /* radix: */ 8)\n```", Default: "false", }, { Name: "\"rangeVariableTypes\"", Doc: "Enable/disable inlay hints for variable types in range statements:\n```go\n\tfor k/* int*/, v/* string*/ := range []string{} {\n\t\tfmt.Println(k, v)\n\t}\n```", Default: "false", }, }}, Default: "{}", Status: "experimental", Hierarchy: "ui.inlayhint", }, { Name: "codelenses", Type: "map[string]bool", Doc: "codelenses overrides the enabled/disabled state of code lenses. See the\n\"Code Lenses\" section of the\n[Settings page](https://github.com/golang/tools/blob/master/gopls/doc/settings.md#code-lenses)\nfor the list of supported lenses.\n\nExample Usage:\n\n```json5\n\"gopls\": {\n...\n \"codelenses\": {\n \"generate\": false, // Don't show the `go generate` lens.\n \"gc_details\": true // Show a code lens toggling the display of gc's choices.\n }\n...\n}\n```\n", EnumKeys: EnumKeys{ ValueType: "bool", Keys: []EnumKey{ { Name: "\"gc_details\"", Doc: "Toggle the calculation of gc annotations.", Default: "false", }, { Name: "\"generate\"", Doc: "Runs `go generate` for a given directory.", Default: "true", }, { Name: "\"regenerate_cgo\"", Doc: "Regenerates cgo definitions.", Default: "true", }, { Name: "\"run_govulncheck\"", Doc: "Run vulnerability check (`govulncheck`).", Default: "false", }, { Name: "\"test\"", Doc: "Runs `go test` for a specific set of test or benchmark functions.", Default: "false", }, { Name: "\"tidy\"", Doc: "Runs `go mod tidy` for a module.", Default: "true", }, { Name: "\"upgrade_dependency\"", Doc: "Upgrades a dependency in the go.mod file for a module.", Default: "true", }, { Name: "\"vendor\"", Doc: "Runs `go mod vendor` for a module.", Default: "true", }, }, }, Default: "{\"gc_details\":false,\"generate\":true,\"regenerate_cgo\":true,\"tidy\":true,\"upgrade_dependency\":true,\"vendor\":true}", Hierarchy: "ui", }, { Name: "semanticTokens", Type: "bool", Doc: "semanticTokens controls whether the LSP server will send\nsemantic tokens to the client.\n", Default: "false", Status: "experimental", Hierarchy: "ui", }, { Name: "noSemanticString", Type: "bool", Doc: "noSemanticString turns off the sending of the semantic token 'string'\n", Default: "false", Status: "experimental", Hierarchy: "ui", }, { Name: "noSemanticNumber", Type: "bool", Doc: "noSemanticNumber turns off the sending of the semantic token 'number'\n", Default: "false", Status: "experimental", Hierarchy: "ui", }, { Name: "local", Type: "string", Doc: "local is the equivalent of the `goimports -local` flag, which puts\nimports beginning with this string after third-party packages. It should\nbe the prefix of the import path whose imports should be grouped\nseparately.\n", Default: "\"\"", Hierarchy: "formatting", }, { Name: "gofumpt", Type: "bool", Doc: "gofumpt indicates if we should run gofumpt formatting.\n", Default: "false", Hierarchy: "formatting", }, { Name: "verboseOutput", Type: "bool", Doc: "verboseOutput enables additional debug logging.\n", Default: "false", Status: "debug", }, }, }, Commands: []*CommandJSON{ { Command: "gopls.add_dependency", Title: "Add a dependency", Doc: "Adds a dependency to the go.mod file for a module.", ArgDoc: "{\n\t// The go.mod file URI.\n\t\"URI\": string,\n\t// Additional args to pass to the go command.\n\t\"GoCmdArgs\": []string,\n\t// Whether to add a require directive.\n\t\"AddRequire\": bool,\n}", }, { Command: "gopls.add_import", Title: "Add an import", Doc: "Ask the server to add an import path to a given Go file. The method will\ncall applyEdit on the client so that clients don't have to apply the edit\nthemselves.", ArgDoc: "{\n\t// ImportPath is the target import path that should\n\t// be added to the URI file\n\t\"ImportPath\": string,\n\t// URI is the file that the ImportPath should be\n\t// added to\n\t\"URI\": string,\n}", }, { Command: "gopls.apply_fix", Title: "Apply a fix", Doc: "Applies a fix to a region of source code.", ArgDoc: "{\n\t// The fix to apply.\n\t\"Fix\": string,\n\t// The file URI for the document to fix.\n\t\"URI\": string,\n\t// The document range to scan for fixes.\n\t\"Range\": {\n\t\t\"start\": {\n\t\t\t\"line\": uint32,\n\t\t\t\"character\": uint32,\n\t\t},\n\t\t\"end\": {\n\t\t\t\"line\": uint32,\n\t\t\t\"character\": uint32,\n\t\t},\n\t},\n}", }, { Command: "gopls.check_upgrades", Title: "Check for upgrades", Doc: "Checks for module upgrades.", ArgDoc: "{\n\t// The go.mod file URI.\n\t\"URI\": string,\n\t// The modules to check.\n\t\"Modules\": []string,\n}", }, { Command: "gopls.edit_go_directive", Title: "Run go mod edit -go=version", Doc: "Runs `go mod edit -go=version` for a module.", ArgDoc: "{\n\t// Any document URI within the relevant module.\n\t\"URI\": string,\n\t// The version to pass to `go mod edit -go`.\n\t\"Version\": string,\n}", }, { Command: "gopls.fetch_vulncheck_result", Title: "Get known vulncheck result", Doc: "Fetch the result of latest vulnerability check (`govulncheck`).", ArgDoc: "{\n\t// The file URI.\n\t\"URI\": string,\n}", ResultDoc: "map[golang.org/x/tools/gopls/internal/lsp/protocol.DocumentURI]*golang.org/x/tools/gopls/internal/govulncheck.Result", }, { Command: "gopls.gc_details", Title: "Toggle gc_details", Doc: "Toggle the calculation of gc annotations.", ArgDoc: "string", }, { Command: "gopls.generate", Title: "Run go generate", Doc: "Runs `go generate` for a given directory.", ArgDoc: "{\n\t// URI for the directory to generate.\n\t\"Dir\": string,\n\t// Whether to generate recursively (go generate ./...)\n\t\"Recursive\": bool,\n}", }, { Command: "gopls.go_get_package", Title: "go get a package", Doc: "Runs `go get` to fetch a package.", ArgDoc: "{\n\t// Any document URI within the relevant module.\n\t\"URI\": string,\n\t// The package to go get.\n\t\"Pkg\": string,\n\t\"AddRequire\": bool,\n}", }, { Command: "gopls.list_imports", Title: "List imports of a file and its package", Doc: "Retrieve a list of imports in the given Go file, and the package it\nbelongs to.", ArgDoc: "{\n\t// The file URI.\n\t\"URI\": string,\n}", ResultDoc: "{\n\t// Imports is a list of imports in the requested file.\n\t\"Imports\": []{\n\t\t\"Path\": string,\n\t\t\"Name\": string,\n\t},\n\t// PackageImports is a list of all imports in the requested file's package.\n\t\"PackageImports\": []{\n\t\t\"Path\": string,\n\t},\n}", }, { Command: "gopls.list_known_packages", Title: "List known packages", Doc: "Retrieve a list of packages that are importable from the given URI.", ArgDoc: "{\n\t// The file URI.\n\t\"URI\": string,\n}", ResultDoc: "{\n\t// Packages is a list of packages relative\n\t// to the URIArg passed by the command request.\n\t// In other words, it omits paths that are already\n\t// imported or cannot be imported due to compiler\n\t// restrictions.\n\t\"Packages\": []string,\n}", }, { Command: "gopls.mem_stats", Title: "fetch memory statistics", Doc: "Call runtime.GC multiple times and return memory statistics as reported by\nruntime.MemStats.\n\nThis command is used for benchmarking, and may change in the future.", ResultDoc: "{\n\t\"HeapAlloc\": uint64,\n\t\"HeapInUse\": uint64,\n\t\"TotalAlloc\": uint64,\n}", }, { Command: "gopls.regenerate_cgo", Title: "Regenerate cgo", Doc: "Regenerates cgo definitions.", ArgDoc: "{\n\t// The file URI.\n\t\"URI\": string,\n}", }, { Command: "gopls.remove_dependency", Title: "Remove a dependency", Doc: "Removes a dependency from the go.mod file of a module.", ArgDoc: "{\n\t// The go.mod file URI.\n\t\"URI\": string,\n\t// The module path to remove.\n\t\"ModulePath\": string,\n\t\"OnlyDiagnostic\": bool,\n}", }, { Command: "gopls.reset_go_mod_diagnostics", Title: "Reset go.mod diagnostics", Doc: "Reset diagnostics in the go.mod file of a module.", ArgDoc: "{\n\t\"URIArg\": {\n\t\t\"URI\": string,\n\t},\n\t// Optional: source of the diagnostics to reset.\n\t// If not set, all resettable go.mod diagnostics will be cleared.\n\t\"DiagnosticSource\": string,\n}", }, { Command: "gopls.run_go_work_command", Title: "run `go work [args...]`, and apply the resulting go.work", Doc: "edits to the current go.work file.", ArgDoc: "{\n\t\"ViewID\": string,\n\t\"InitFirst\": bool,\n\t\"Args\": []string,\n}", }, { Command: "gopls.run_govulncheck", Title: "Run govulncheck.", Doc: "Run vulnerability check (`govulncheck`).", ArgDoc: "{\n\t// Any document in the directory from which govulncheck will run.\n\t\"URI\": string,\n\t// Package pattern. E.g. \"\", \".\", \"./...\".\n\t\"Pattern\": string,\n}", ResultDoc: "{\n\t// Token holds the progress token for LSP workDone reporting of the vulncheck\n\t// invocation.\n\t\"Token\": interface{},\n}", }, { Command: "gopls.run_tests", Title: "Run test(s)", Doc: "Runs `go test` for a specific set of test or benchmark functions.", ArgDoc: "{\n\t// The test file containing the tests to run.\n\t\"URI\": string,\n\t// Specific test names to run, e.g. TestFoo.\n\t\"Tests\": []string,\n\t// Specific benchmarks to run, e.g. BenchmarkFoo.\n\t\"Benchmarks\": []string,\n}", }, { Command: "gopls.start_debugging", Title: "Start the gopls debug server", Doc: "Start the gopls debug server if it isn't running, and return the debug\naddress.", ArgDoc: "{\n\t// Optional: the address (including port) for the debug server to listen on.\n\t// If not provided, the debug server will bind to \"localhost:0\", and the\n\t// full debug URL will be contained in the result.\n\t// \n\t// If there is more than one gopls instance along the serving path (i.e. you\n\t// are using a daemon), each gopls instance will attempt to start debugging.\n\t// If Addr specifies a port, only the daemon will be able to bind to that\n\t// port, and each intermediate gopls instance will fail to start debugging.\n\t// For this reason it is recommended not to specify a port (or equivalently,\n\t// to specify \":0\").\n\t// \n\t// If the server was already debugging this field has no effect, and the\n\t// result will contain the previously configured debug URL(s).\n\t\"Addr\": string,\n}", ResultDoc: "{\n\t// The URLs to use to access the debug servers, for all gopls instances in\n\t// the serving path. For the common case of a single gopls instance (i.e. no\n\t// daemon), this will be exactly one address.\n\t// \n\t// In the case of one or more gopls instances forwarding the LSP to a daemon,\n\t// URLs will contain debug addresses for each server in the serving path, in\n\t// serving order. The daemon debug address will be the last entry in the\n\t// slice. If any intermediate gopls instance fails to start debugging, no\n\t// error will be returned but the debug URL for that server in the URLs slice\n\t// will be empty.\n\t\"URLs\": []string,\n}", }, { Command: "gopls.test", Title: "Run test(s) (legacy)", Doc: "Runs `go test` for a specific set of test or benchmark functions.", ArgDoc: "string,\n[]string,\n[]string", }, { Command: "gopls.tidy", Title: "Run go mod tidy", Doc: "Runs `go mod tidy` for a module.", ArgDoc: "{\n\t// The file URIs.\n\t\"URIs\": []string,\n}", }, { Command: "gopls.toggle_gc_details", Title: "Toggle gc_details", Doc: "Toggle the calculation of gc annotations.", ArgDoc: "{\n\t// The file URI.\n\t\"URI\": string,\n}", }, { Command: "gopls.update_go_sum", Title: "Update go.sum", Doc: "Updates the go.sum file for a module.", ArgDoc: "{\n\t// The file URIs.\n\t\"URIs\": []string,\n}", }, { Command: "gopls.upgrade_dependency", Title: "Upgrade a dependency", Doc: "Upgrades a dependency in the go.mod file for a module.", ArgDoc: "{\n\t// The go.mod file URI.\n\t\"URI\": string,\n\t// Additional args to pass to the go command.\n\t\"GoCmdArgs\": []string,\n\t// Whether to add a require directive.\n\t\"AddRequire\": bool,\n}", }, { Command: "gopls.vendor", Title: "Run go mod vendor", Doc: "Runs `go mod vendor` for a module.", ArgDoc: "{\n\t// The file URI.\n\t\"URI\": string,\n}", }, { Command: "gopls.workspace_stats", Title: "fetch workspace statistics", Doc: "Query statistics about workspace builds, modules, packages, and files.\n\nThis command is intended for internal use only, by the gopls stats\ncommand.", ResultDoc: "{\n\t\"Files\": {\n\t\t\"Total\": int,\n\t\t\"Largest\": int,\n\t\t\"Errs\": int,\n\t},\n\t\"Views\": []{\n\t\t\"GoCommandVersion\": string,\n\t\t\"AllPackages\": {\n\t\t\t\"Packages\": int,\n\t\t\t\"LargestPackage\": int,\n\t\t\t\"CompiledGoFiles\": int,\n\t\t\t\"Modules\": int,\n\t\t},\n\t\t\"WorkspacePackages\": {\n\t\t\t\"Packages\": int,\n\t\t\t\"LargestPackage\": int,\n\t\t\t\"CompiledGoFiles\": int,\n\t\t\t\"Modules\": int,\n\t\t},\n\t\t\"Diagnostics\": int,\n\t},\n}", }, }, Lenses: []*LensJSON{ { Lens: "gc_details", Title: "Toggle gc_details", Doc: "Toggle the calculation of gc annotations.", }, { Lens: "generate", Title: "Run go generate", Doc: "Runs `go generate` for a given directory.", }, { Lens: "regenerate_cgo", Title: "Regenerate cgo", Doc: "Regenerates cgo definitions.", }, { Lens: "run_govulncheck", Title: "Run govulncheck.", Doc: "Run vulnerability check (`govulncheck`).", }, { Lens: "test", Title: "Run test(s) (legacy)", Doc: "Runs `go test` for a specific set of test or benchmark functions.", }, { Lens: "tidy", Title: "Run go mod tidy", Doc: "Runs `go mod tidy` for a module.", }, { Lens: "upgrade_dependency", Title: "Upgrade a dependency", Doc: "Upgrades a dependency in the go.mod file for a module.", }, { Lens: "vendor", Title: "Run go mod vendor", Doc: "Runs `go mod vendor` for a module.", }, }, Analyzers: []*AnalyzerJSON{ { Name: "asmdecl", Doc: "report mismatches between assembly files and Go declarations", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/asmdecl", Default: true, }, { Name: "assign", Doc: "check for useless assignments\n\nThis checker reports assignments of the form x = x or a[i] = a[i].\nThese are almost always useless, and even when they aren't they are\nusually a mistake.", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/assign", Default: true, }, { Name: "atomic", Doc: "check for common mistakes using the sync/atomic package\n\nThe atomic checker looks for assignment statements of the form:\n\n\tx = atomic.AddUint64(&x, 1)\n\nwhich are not atomic.", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/atomic", Default: true, }, { Name: "atomicalign", Doc: "check for non-64-bits-aligned arguments to sync/atomic functions", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/atomicalign", Default: true, }, { Name: "bools", Doc: "check for common mistakes involving boolean operators", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/bools", Default: true, }, { Name: "buildtag", Doc: "check //go:build and // +build directives", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/buildtag", Default: true, }, { Name: "cgocall", Doc: "detect some violations of the cgo pointer passing rules\n\nCheck for invalid cgo pointer passing.\nThis looks for code that uses cgo to call C code passing values\nwhose types are almost always invalid according to the cgo pointer\nsharing rules.\nSpecifically, it warns about attempts to pass a Go chan, map, func,\nor slice to C, either directly, or via a pointer, array, or struct.", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/cgocall", Default: true, }, { Name: "composites", Doc: "check for unkeyed composite literals\n\nThis analyzer reports a diagnostic for composite literals of struct\ntypes imported from another package that do not use the field-keyed\nsyntax. Such literals are fragile because the addition of a new field\n(even if unexported) to the struct will cause compilation to fail.\n\nAs an example,\n\n\terr = &net.DNSConfigError{err}\n\nshould be replaced by:\n\n\terr = &net.DNSConfigError{Err: err}\n", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/composites", Default: true, }, { Name: "copylocks", Doc: "check for locks erroneously passed by value\n\nInadvertently copying a value containing a lock, such as sync.Mutex or\nsync.WaitGroup, may cause both copies to malfunction. Generally such\nvalues should be referred to through a pointer.", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/copylocks", Default: true, }, { Name: "deepequalerrors", Doc: "check for calls of reflect.DeepEqual on error values\n\nThe deepequalerrors checker looks for calls of the form:\n\n reflect.DeepEqual(err1, err2)\n\nwhere err1 and err2 are errors. Using reflect.DeepEqual to compare\nerrors is discouraged.", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/deepequalerrors", Default: true, }, { Name: "directive", Doc: "check Go toolchain directives such as //go:debug\n\nThis analyzer checks for problems with known Go toolchain directives\nin all Go source files in a package directory, even those excluded by\n//go:build constraints, and all non-Go source files too.\n\nFor //go:debug (see https://go.dev/doc/godebug), the analyzer checks\nthat the directives are placed only in Go source files, only above the\npackage comment, and only in package main or *_test.go files.\n\nSupport for other known directives may be added in the future.\n\nThis analyzer does not check //go:build, which is handled by the\nbuildtag analyzer.\n", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/directive", Default: true, }, { Name: "embed", Doc: "check for //go:embed directive import\n\nThis analyzer checks that the embed package is imported when source code contains //go:embed comment directives.\nThe embed package must be imported for //go:embed directives to function.import _ \"embed\".", Default: true, }, { Name: "errorsas", Doc: "report passing non-pointer or non-error values to errors.As\n\nThe errorsas analysis reports calls to errors.As where the type\nof the second argument is not a pointer to a type implementing error.", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/errorsas", Default: true, }, { Name: "fieldalignment", Doc: "find structs that would use less memory if their fields were sorted\n\nThis analyzer find structs that can be rearranged to use less memory, and provides\na suggested edit with the most compact order.\n\nNote that there are two different diagnostics reported. One checks struct size,\nand the other reports \"pointer bytes\" used. Pointer bytes is how many bytes of the\nobject that the garbage collector has to potentially scan for pointers, for example:\n\n\tstruct { uint32; string }\n\nhave 16 pointer bytes because the garbage collector has to scan up through the string's\ninner pointer.\n\n\tstruct { string; *uint32 }\n\nhas 24 pointer bytes because it has to scan further through the *uint32.\n\n\tstruct { string; uint32 }\n\nhas 8 because it can stop immediately after the string pointer.\n\nBe aware that the most compact order is not always the most efficient.\nIn rare cases it may cause two variables each updated by its own goroutine\nto occupy the same CPU cache line, inducing a form of memory contention\nknown as \"false sharing\" that slows down both goroutines.\n", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/fieldalignment", }, { Name: "httpresponse", Doc: "check for mistakes using HTTP responses\n\nA common mistake when using the net/http package is to defer a function\ncall to close the http.Response Body before checking the error that\ndetermines whether the response is valid:\n\n\tresp, err := http.Head(url)\n\tdefer resp.Body.Close()\n\tif err != nil {\n\t\tlog.Fatal(err)\n\t}\n\t// (defer statement belongs here)\n\nThis checker helps uncover latent nil dereference bugs by reporting a\ndiagnostic for such mistakes.", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/httpresponse", Default: true, }, { Name: "ifaceassert", Doc: "detect impossible interface-to-interface type assertions\n\nThis checker flags type assertions v.(T) and corresponding type-switch cases\nin which the static type V of v is an interface that cannot possibly implement\nthe target interface T. This occurs when V and T contain methods with the same\nname but different signatures. Example:\n\n\tvar v interface {\n\t\tRead()\n\t}\n\t_ = v.(io.Reader)\n\nThe Read method in v has a different signature than the Read method in\nio.Reader, so this assertion cannot succeed.", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/ifaceassert", Default: true, }, { Name: "loopclosure", Doc: "check references to loop variables from within nested functions\n\nThis analyzer reports places where a function literal references the\niteration variable of an enclosing loop, and the loop calls the function\nin such a way (e.g. with go or defer) that it may outlive the loop\niteration and possibly observe the wrong value of the variable.\n\nIn this example, all the deferred functions run after the loop has\ncompleted, so all observe the final value of v.\n\n\tfor _, v := range list {\n\t defer func() {\n\t use(v) // incorrect\n\t }()\n\t}\n\nOne fix is to create a new variable for each iteration of the loop:\n\n\tfor _, v := range list {\n\t v := v // new var per iteration\n\t defer func() {\n\t use(v) // ok\n\t }()\n\t}\n\nThe next example uses a go statement and has a similar problem.\nIn addition, it has a data race because the loop updates v\nconcurrent with the goroutines accessing it.\n\n\tfor _, v := range elem {\n\t go func() {\n\t use(v) // incorrect, and a data race\n\t }()\n\t}\n\nA fix is the same as before. The checker also reports problems\nin goroutines started by golang.org/x/sync/errgroup.Group.\nA hard-to-spot variant of this form is common in parallel tests:\n\n\tfunc Test(t *testing.T) {\n\t for _, test := range tests {\n\t t.Run(test.name, func(t *testing.T) {\n\t t.Parallel()\n\t use(test) // incorrect, and a data race\n\t })\n\t }\n\t}\n\nThe t.Parallel() call causes the rest of the function to execute\nconcurrent with the loop.\n\nThe analyzer reports references only in the last statement,\nas it is not deep enough to understand the effects of subsequent\nstatements that might render the reference benign.\n(\"Last statement\" is defined recursively in compound\nstatements such as if, switch, and select.)\n\nSee: https://golang.org/doc/go_faq.html#closures_and_goroutines", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/loopclosure", Default: true, }, { Name: "lostcancel", Doc: "check cancel func returned by context.WithCancel is called\n\nThe cancellation function returned by context.WithCancel, WithTimeout,\nand WithDeadline must be called or the new context will remain live\nuntil its parent context is cancelled.\n(The background context is never cancelled.)", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/lostcancel", Default: true, }, { Name: "nilfunc", Doc: "check for useless comparisons between functions and nil\n\nA useless comparison is one like f == nil as opposed to f() == nil.", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/nilfunc", Default: true, }, { Name: "nilness", Doc: "check for redundant or impossible nil comparisons\n\nThe nilness checker inspects the control-flow graph of each function in\na package and reports nil pointer dereferences, degenerate nil\npointers, and panics with nil values. A degenerate comparison is of the form\nx==nil or x!=nil where x is statically known to be nil or non-nil. These are\noften a mistake, especially in control flow related to errors. Panics with nil\nvalues are checked because they are not detectable by\n\n\tif r := recover(); r != nil {\n\nThis check reports conditions such as:\n\n\tif f == nil { // impossible condition (f is a function)\n\t}\n\nand:\n\n\tp := &v\n\t...\n\tif p != nil { // tautological condition\n\t}\n\nand:\n\n\tif p == nil {\n\t\tprint(*p) // nil dereference\n\t}\n\nand:\n\n\tif p == nil {\n\t\tpanic(p)\n\t}", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/nilness", }, { Name: "printf", Doc: "check consistency of Printf format strings and arguments\n\nThe check applies to calls of the formatting functions such as\n[fmt.Printf] and [fmt.Sprintf], as well as any detected wrappers of\nthose functions.\n\nIn this example, the %d format operator requires an integer operand:\n\n\tfmt.Printf(\"%d\", \"hello\") // fmt.Printf format %d has arg \"hello\" of wrong type string\n\nSee the documentation of the fmt package for the complete set of\nformat operators and their operand types.\n\nTo enable printf checking on a function that is not found by this\nanalyzer's heuristics (for example, because control is obscured by\ndynamic method calls), insert a bogus call:\n\n\tfunc MyPrintf(format string, args ...any) {\n\t\tif false {\n\t\t\t_ = fmt.Sprintf(format, args...) // enable printf checker\n\t\t}\n\t\t...\n\t}\n\nThe -funcs flag specifies a comma-separated list of names of additional\nknown formatting functions or methods. If the name contains a period,\nit must denote a specific function using one of the following forms:\n\n\tdir/pkg.Function\n\tdir/pkg.Type.Method\n\t(*dir/pkg.Type).Method\n\nOtherwise the name is interpreted as a case-insensitive unqualified\nidentifier such as \"errorf\". Either way, if a listed name ends in f, the\nfunction is assumed to be Printf-like, taking a format string before the\nargument list. Otherwise it is assumed to be Print-like, taking a list\nof arguments with no format string.", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/printf", Default: true, }, { Name: "shadow", Doc: "check for possible unintended shadowing of variables\n\nThis analyzer check for shadowed variables.\nA shadowed variable is a variable declared in an inner scope\nwith the same name and type as a variable in an outer scope,\nand where the outer variable is mentioned after the inner one\nis declared.\n\n(This definition can be refined; the module generates too many\nfalse positives and is not yet enabled by default.)\n\nFor example:\n\n\tfunc BadRead(f *os.File, buf []byte) error {\n\t\tvar err error\n\t\tfor {\n\t\t\tn, err := f.Read(buf) // shadows the function variable 'err'\n\t\t\tif err != nil {\n\t\t\t\tbreak // causes return of wrong value\n\t\t\t}\n\t\t\tfoo(buf)\n\t\t}\n\t\treturn err\n\t}", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/shadow", }, { Name: "shift", Doc: "check for shifts that equal or exceed the width of the integer", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/shift", Default: true, }, { Name: "simplifycompositelit", Doc: "check for composite literal simplifications\n\nAn array, slice, or map composite literal of the form:\n\t[]T{T{}, T{}}\nwill be simplified to:\n\t[]T{{}, {}}\n\nThis is one of the simplifications that \"gofmt -s\" applies.", Default: true, }, { Name: "simplifyrange", Doc: "check for range statement simplifications\n\nA range of the form:\n\tfor x, _ = range v {...}\nwill be simplified to:\n\tfor x = range v {...}\n\nA range of the form:\n\tfor _ = range v {...}\nwill be simplified to:\n\tfor range v {...}\n\nThis is one of the simplifications that \"gofmt -s\" applies.", Default: true, }, { Name: "simplifyslice", Doc: "check for slice simplifications\n\nA slice expression of the form:\n\ts[a:len(s)]\nwill be simplified to:\n\ts[a:]\n\nThis is one of the simplifications that \"gofmt -s\" applies.", Default: true, }, { Name: "sortslice", Doc: "check the argument type of sort.Slice\n\nsort.Slice requires an argument of a slice type. Check that\nthe interface{} value passed to sort.Slice is actually a slice.", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/sortslice", Default: true, }, { Name: "stdmethods", Doc: "check signature of methods of well-known interfaces\n\nSometimes a type may be intended to satisfy an interface but may fail to\ndo so because of a mistake in its method signature.\nFor example, the result of this WriteTo method should be (int64, error),\nnot error, to satisfy io.WriterTo:\n\n\ttype myWriterTo struct{...}\n\tfunc (myWriterTo) WriteTo(w io.Writer) error { ... }\n\nThis check ensures that each method whose name matches one of several\nwell-known interface methods from the standard library has the correct\nsignature for that interface.\n\nChecked method names include:\n\n\tFormat GobEncode GobDecode MarshalJSON MarshalXML\n\tPeek ReadByte ReadFrom ReadRune Scan Seek\n\tUnmarshalJSON UnreadByte UnreadRune WriteByte\n\tWriteTo", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/stdmethods", Default: true, }, { Name: "stringintconv", Doc: "check for string(int) conversions\n\nThis checker flags conversions of the form string(x) where x is an integer\n(but not byte or rune) type. Such conversions are discouraged because they\nreturn the UTF-8 representation of the Unicode code point x, and not a decimal\nstring representation of x as one might expect. Furthermore, if x denotes an\ninvalid code point, the conversion cannot be statically rejected.\n\nFor conversions that intend on using the code point, consider replacing them\nwith string(rune(x)). Otherwise, strconv.Itoa and its equivalents return the\nstring representation of the value in the desired base.", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/stringintconv", Default: true, }, { Name: "structtag", Doc: "check that struct field tags conform to reflect.StructTag.Get\n\nAlso report certain struct tags (json, xml) used with unexported fields.", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/structtag", Default: true, }, { Name: "testinggoroutine", Doc: "report calls to (*testing.T).Fatal from goroutines started by a test.\n\nFunctions that abruptly terminate a test, such as the Fatal, Fatalf, FailNow, and\nSkip{,f,Now} methods of *testing.T, must be called from the test goroutine itself.\nThis checker detects calls to these functions that occur within a goroutine\nstarted by the test. For example:\n\n\tfunc TestFoo(t *testing.T) {\n\t go func() {\n\t t.Fatal(\"oops\") // error: (*T).Fatal called from non-test goroutine\n\t }()\n\t}", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/testinggoroutine", Default: true, }, { Name: "tests", Doc: "check for common mistaken usages of tests and examples\n\nThe tests checker walks Test, Benchmark, Fuzzing and Example functions checking\nmalformed names, wrong signatures and examples documenting non-existent\nidentifiers.\n\nPlease see the documentation for package testing in golang.org/pkg/testing\nfor the conventions that are enforced for Tests, Benchmarks, and Examples.", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/tests", Default: true, }, { Name: "timeformat", Doc: "check for calls of (time.Time).Format or time.Parse with 2006-02-01\n\nThe timeformat checker looks for time formats with the 2006-02-01 (yyyy-dd-mm)\nformat. Internationally, \"yyyy-dd-mm\" does not occur in common calendar date\nstandards, and so it is more likely that 2006-01-02 (yyyy-mm-dd) was intended.", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/timeformat", Default: true, }, { Name: "unmarshal", Doc: "report passing non-pointer or non-interface values to unmarshal\n\nThe unmarshal analysis reports calls to functions such as json.Unmarshal\nin which the argument type is not a pointer or an interface.", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/unmarshal", Default: true, }, { Name: "unreachable", Doc: "check for unreachable code\n\nThe unreachable analyzer finds statements that execution can never reach\nbecause they are preceded by an return statement, a call to panic, an\ninfinite loop, or similar constructs.", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/unreachable", Default: true, }, { Name: "unsafeptr", Doc: "check for invalid conversions of uintptr to unsafe.Pointer\n\nThe unsafeptr analyzer reports likely incorrect uses of unsafe.Pointer\nto convert integers to pointers. A conversion from uintptr to\nunsafe.Pointer is invalid if it implies that there is a uintptr-typed\nword in memory that holds a pointer value, because that word will be\ninvisible to stack copying and to the garbage collector.", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/unsafeptr", Default: true, }, { Name: "unusedparams", Doc: "check for unused parameters of functions\n\nThe unusedparams analyzer checks functions to see if there are\nany parameters that are not being used.\n\nTo reduce false positives it ignores:\n- methods\n- parameters that do not have a name or are underscored\n- functions in test files\n- functions with empty bodies or those with just a return stmt", }, { Name: "unusedresult", Doc: "check for unused results of calls to some functions\n\nSome functions like fmt.Errorf return a result and have no side\neffects, so it is always a mistake to discard the result. Other\nfunctions may return an error that must not be ignored, or a cleanup\noperation that must be called. This analyzer reports calls to\nfunctions like these when the result of the call is ignored.\n\nThe set of functions may be controlled using flags.", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/unusedresult", Default: true, }, { Name: "unusedwrite", Doc: "checks for unused writes\n\nThe analyzer reports instances of writes to struct fields and\narrays that are never read. Specifically, when a struct object\nor an array is copied, its elements are copied implicitly by\nthe compiler, and any element write to this copy does nothing\nwith the original object.\n\nFor example:\n\n\ttype T struct { x int }\n\n\tfunc f(input []T) {\n\t\tfor i, v := range input { // v is a copy\n\t\t\tv.x = i // unused write to field x\n\t\t}\n\t}\n\nAnother example is about non-pointer receiver:\n\n\ttype T struct { x int }\n\n\tfunc (t T) f() { // t is a copy\n\t\tt.x = i // unused write to field x\n\t}", URL: "https://pkg.go.dev/golang.org/x/tools/go/analysis/passes/unusedwrite", }, { Name: "useany", Doc: "check for constraints that could be simplified to \"any\"", }, { Name: "fillreturns", Doc: "suggest fixes for errors due to an incorrect number of return values\n\nThis checker provides suggested fixes for type errors of the\ntype \"wrong number of return values (want %d, got %d)\". For example:\n\tfunc m() (int, string, *bool, error) {\n\t\treturn\n\t}\nwill turn into\n\tfunc m() (int, string, *bool, error) {\n\t\treturn 0, \"\", nil, nil\n\t}\n\nThis functionality is similar to https://github.com/sqs/goreturns.\n", Default: true, }, { Name: "nonewvars", Doc: "suggested fixes for \"no new vars on left side of :=\"\n\nThis checker provides suggested fixes for type errors of the\ntype \"no new vars on left side of :=\". For example:\n\tz := 1\n\tz := 2\nwill turn into\n\tz := 1\n\tz = 2\n", Default: true, }, { Name: "noresultvalues", Doc: "suggested fixes for unexpected return values\n\nThis checker provides suggested fixes for type errors of the\ntype \"no result values expected\" or \"too many return values\".\nFor example:\n\tfunc z() { return nil }\nwill turn into\n\tfunc z() { return }\n", Default: true, }, { Name: "undeclaredname", Doc: "suggested fixes for \"undeclared name: <>\"\n\nThis checker provides suggested fixes for type errors of the\ntype \"undeclared name: <>\". It will either insert a new statement,\nsuch as:\n\n\"<> := \"\n\nor a new function declaration, such as:\n\nfunc <>(inferred parameters) {\n\tpanic(\"implement me!\")\n}\n", Default: true, }, { Name: "unusedvariable", Doc: "check for unused variables\n\nThe unusedvariable analyzer suggests fixes for unused variables errors.\n", }, { Name: "fillstruct", Doc: "note incomplete struct initializations\n\nThis analyzer provides diagnostics for any struct literals that do not have\nany fields initialized. Because the suggested fix for this analysis is\nexpensive to compute, callers should compute it separately, using the\nSuggestedFix function below.\n", Default: true, }, { Name: "infertypeargs", Doc: "check for unnecessary type arguments in call expressions\n\nExplicit type arguments may be omitted from call expressions if they can be\ninferred from function arguments, or from other type arguments:\n\n\tfunc f[T any](T) {}\n\t\n\tfunc _() {\n\t\tf[string](\"foo\") // string could be inferred\n\t}\n", Default: true, }, { Name: "stubmethods", Doc: "stub methods analyzer\n\nThis analyzer generates method stubs for concrete types\nin order to implement a target interface", Default: true, }, }, Hints: []*HintJSON{ { Name: "assignVariableTypes", Doc: "Enable/disable inlay hints for variable types in assign statements:\n```go\n\ti/* int*/, j/* int*/ := 0, len(r)-1\n```", }, { Name: "compositeLiteralFields", Doc: "Enable/disable inlay hints for composite literal field names:\n```go\n\t{/*in: */\"Hello, world\", /*want: */\"dlrow ,olleH\"}\n```", }, { Name: "compositeLiteralTypes", Doc: "Enable/disable inlay hints for composite literal types:\n```go\n\tfor _, c := range []struct {\n\t\tin, want string\n\t}{\n\t\t/*struct{ in string; want string }*/{\"Hello, world\", \"dlrow ,olleH\"},\n\t}\n```", }, { Name: "constantValues", Doc: "Enable/disable inlay hints for constant values:\n```go\n\tconst (\n\t\tKindNone Kind = iota/* = 0*/\n\t\tKindPrint/* = 1*/\n\t\tKindPrintf/* = 2*/\n\t\tKindErrorf/* = 3*/\n\t)\n```", }, { Name: "functionTypeParameters", Doc: "Enable/disable inlay hints for implicit type parameters on generic functions:\n```go\n\tmyFoo/*[int, string]*/(1, \"hello\")\n```", }, { Name: "parameterNames", Doc: "Enable/disable inlay hints for parameter names:\n```go\n\tparseInt(/* str: */ \"123\", /* radix: */ 8)\n```", }, { Name: "rangeVariableTypes", Doc: "Enable/disable inlay hints for variable types in range statements:\n```go\n\tfor k/* int*/, v/* string*/ := range []string{} {\n\t\tfmt.Println(k, v)\n\t}\n```", }, }, }
Functions ¶
func AddImport ¶
func AddImport(ctx context.Context, snapshot Snapshot, fh FileHandle, importPath string) ([]protocol.TextEdit, error)
AddImport adds a single import statement to the given file
func Analyze ¶
func Analyze(ctx context.Context, snapshot Snapshot, pkgid PackageID, includeConvenience bool) (map[span.URI][]*Diagnostic, error)
Analyze reports go/analysis-framework diagnostics in the specified package.
func ApplyFix ¶
func ApplyFix(ctx context.Context, fix string, snapshot Snapshot, fh FileHandle, pRng protocol.Range) ([]protocol.TextDocumentEdit, error)
ApplyFix applies the command's suggested fix to the given file and range, returning the resulting edits.
func ApplyProtocolEdits ¶
ApplyProtocolEdits applies the patch (edits) to m.Content and returns the result. It also returns the edits converted to diff-package form.
func CanExtractFunction ¶
func CanExtractFunction(tok *token.File, start, end token.Pos, src []byte, file *ast.File) (*fnExtractParams, bool, bool, error)
CanExtractFunction reports whether the code in the given range can be extracted to a function.
func CanExtractVariable ¶
CanExtractVariable reports whether the code in the given range can be extracted to a variable.
func CanInvertIfCondition ¶ added in v0.12.0
CanInvertIfCondition reports whether we can do invert-if-condition on the code in the given range
func CollectScopes ¶
CollectScopes returns all scopes in an ast path, ordered as innermost scope first.
func CombineDiagnostics ¶ added in v0.12.0
func CombineDiagnostics(tdiags []*Diagnostic, adiags []*Diagnostic, outT, outA *[]*Diagnostic)
CombineDiagnostics combines and filters list/parse/type diagnostics from tdiags with adiags, and appends the two lists to *outT and *outA, respectively.
Type-error analyzers produce diagnostics that are redundant with type checker diagnostics, but more detailed (e.g. fixes). Rather than report two diagnostics for the same problem, we combine them by augmenting the type-checker diagnostic and discarding the analyzer diagnostic.
If an analysis diagnostic has the same range and message as a list/parse/type diagnostic, the suggested fix information (et al) of the latter is merged into a copy of the former. This handles the case where a type-error analyzer suggests a fix to a type error, and avoids duplication.
The use of out-slices, though irregular, allows the caller to easily choose whether to keep the results separate or combined.
The arguments are not modified.
func CommentToMarkdown ¶
CommentToMarkdown converts comment text to formatted markdown. The comment was prepared by DocReader, so it is known not to have leading, trailing blank lines nor to have trailing spaces at the end of lines. The comment markers have already been removed.
func CompareDiagnostic ¶
func CompareDiagnostic(a, b *Diagnostic) int
func ComputeOneImportFixEdits ¶
func ComputeOneImportFixEdits(snapshot Snapshot, pgf *ParsedGoFile, fix *imports.ImportFix) ([]protocol.TextEdit, error)
ComputeOneImportFixEdits returns text edits for a single import fix.
func Definition ¶
func Definition(ctx context.Context, snapshot Snapshot, fh FileHandle, position protocol.Position) ([]protocol.Location, error)
Definition handles the textDocument/definition request for Go files.
func Deref ¶
Deref returns a pointer's element type, traversing as many levels as needed. Otherwise it returns typ.
It can return a pointer type for cyclic types (see golang/go#45510).
func DocumentSymbols ¶
func DocumentSymbols(ctx context.Context, snapshot Snapshot, fh FileHandle) ([]protocol.DocumentSymbol, error)
func FileDiagnostics ¶
func FileDiagnostics(ctx context.Context, snapshot Snapshot, uri span.URI) (FileHandle, []*Diagnostic, error)
FileDiagnostics reports diagnostics in the specified file, as used by the "gopls check" command.
TODO(adonovan): factor in common with (*Server).codeAction, which executes { NarrowestPackageForFile; Analyze } too?
TODO(adonovan): opt: this function is called in a loop from the "gopls/diagnoseFiles" nonstandard request handler. It would be more efficient to compute the set of packages and TypeCheck and Analyze them all at once.
func FormatNode ¶
FormatNode returns the "pretty-print" output for an ast node.
func FormatNodeFile ¶ added in v0.12.0
FormatNodeFile is like FormatNode, but requires only the token.File for the syntax containing the given ast node.
func FormatType ¶
func FormatType(typ types.Type, qf types.Qualifier) (detail string, kind protocol.CompletionItemKind)
FormatType returns the detail and kind for a types.Type.
func FormatTypeParams ¶
func FormatTypeParams(tparams *typeparams.TypeParamList) string
FormatTypeParams turns TypeParamList into its Go representation, such as: [T, Y]. Note that it does not print constraints as this is mainly used for formatting type params in method receivers.
func FormatVarType ¶
func FormatVarType(ctx context.Context, snapshot Snapshot, srcpkg Package, obj *types.Var, qf types.Qualifier, mq MetadataQualifier) (string, error)
FormatVarType formats a *types.Var, accounting for type aliases. To do this, it looks in the AST of the file in which the object is declared. On any errors, it always falls back to types.TypeString.
TODO(rfindley): this function could return the actual name used in syntax, for better parameter names.
func FromProtocolEdits ¶
FromProtocolEdits converts LSP TextEdits to diff.Edits. See https://microsoft.github.io/language-server-protocol/specifications/lsp/3.17/specification/#textEditArray
func GCOptimizationDetails ¶
func Hover ¶
func Hover(ctx context.Context, snapshot Snapshot, fh FileHandle, position protocol.Position) (*protocol.Hover, error)
Hover implements the "textDocument/hover" RPC for Go files.
func HoverDocForObject ¶ added in v0.12.0
func HoverDocForObject(ctx context.Context, snapshot Snapshot, fset *token.FileSet, obj types.Object) (*ast.CommentGroup, error)
HoverDocForObject returns the best doc comment for obj (for which fset provides file/line information).
TODO(rfindley): there appears to be zero(!) tests for this functionality.
func Implementation ¶
func Implementation(ctx context.Context, snapshot Snapshot, f FileHandle, pp protocol.Position) ([]protocol.Location, error)
Implementation returns a new sorted array of locations of declarations of types that implement (or are implemented by) the type referred to at the given position.
If the position denotes a method, the computation is applied to its receiver type and then its corresponding methods are returned.
func InDir ¶
InDir checks whether path is in the file tree rooted at dir. It checks only the lexical form of the file names. It does not consider symbolic links.
Copied from go/src/cmd/go/internal/search/search.go.
func IncomingCalls ¶
func IncomingCalls(ctx context.Context, snapshot Snapshot, fh FileHandle, pos protocol.Position) ([]protocol.CallHierarchyIncomingCall, error)
IncomingCalls returns an array of CallHierarchyIncomingCall for a file and the position within the file.
func IsCommandLineArguments ¶
IsCommandLineArguments reports whether a given value denotes "command-line-arguments" package, which is a package with an unknown ID created by the go command. It can have a test variant, which is why callers should not check that a value equals "command-line-arguments" directly.
func IsGenerated ¶
IsGenerated gets and reads the file denoted by uri and reports whether it contains a "generated file" comment as described at https://golang.org/s/generatedcode.
TODO(adonovan): opt: this function does too much. Move snapshot.ReadFile into the caller (most of which have already done it).
func IsNonFatalGoModError ¶
func IsValidImport ¶
func IsValidImport(pkgPath, importPkgPath PackagePath) bool
IsValidImport returns whether importPkgPath is importable by pkgPath
func LinknameDefinition ¶ added in v0.12.0
func LinknameDefinition(ctx context.Context, snapshot Snapshot, fh FileHandle, from protocol.Position) ([]protocol.Location, error)
LinknameDefinition finds the definition of the linkname directive in fh at pos. If there is no linkname directive at pos, returns ErrNoLinkname.
func NarrowestPackageForFile ¶ added in v0.12.0
func NarrowestPackageForFile(ctx context.Context, snapshot Snapshot, uri span.URI) (Package, *ParsedGoFile, error)
NarrowestPackageForFile is a convenience function that selects the narrowest non-ITV package to which this file belongs, type-checks it in the requested mode (full or workspace), and returns it, along with the parse tree of that file.
The "narrowest" package is the one with the fewest number of files that includes the given file. This solves the problem of test variants, as the test will have more files than the non-test package. (Historically the preference was a parameter but widest was almost never needed.)
An intermediate test variant (ITV) package has identical source to a regular package but resolves imports differently. gopls should never need to type-check them.
Type-checking is expensive. Call snapshot.ParseGo if all you need is a parse tree, or snapshot.MetadataForFile if you only need metadata.
func NewBuiltinSignature ¶
NewBuiltinSignature returns signature for the builtin object with a given name, if a builtin object with the name exists.
func NewSignature ¶
func NewSignature(ctx context.Context, s Snapshot, pkg Package, sig *types.Signature, comment *ast.CommentGroup, qf types.Qualifier, mq MetadataQualifier) (*signature, error)
NewSignature returns formatted signature for a types.Signature struct.
func NodeContains ¶
NodeContains returns true if a node encloses a given position pos.
func OutgoingCalls ¶
func OutgoingCalls(ctx context.Context, snapshot Snapshot, fh FileHandle, pp protocol.Position) ([]protocol.CallHierarchyOutgoingCall, error)
OutgoingCalls returns an array of CallHierarchyOutgoingCall for a file and the position within the file.
func PrepareCallHierarchy ¶
func PrepareCallHierarchy(ctx context.Context, snapshot Snapshot, fh FileHandle, pp protocol.Position) ([]protocol.CallHierarchyItem, error)
PrepareCallHierarchy returns an array of CallHierarchyItem for a file and the position within the file.
func Qualifier ¶
Qualifier returns a function that appropriately formats a types.PkgName appearing in a *ast.File.
func References ¶
func References(ctx context.Context, snapshot Snapshot, fh FileHandle, pp protocol.Position, includeDeclaration bool) ([]protocol.Location, error)
References returns a list of all references (sorted with definitions before uses) to the object denoted by the identifier at the given file/position, searching the entire workspace.
func RemoveIntermediateTestVariants ¶ added in v0.12.0
func RemoveIntermediateTestVariants(pmetas *[]*Metadata)
RemoveIntermediateTestVariants removes intermediate test variants, modifying the array. We use a pointer to a slice make it impossible to forget to use the result.
func Rename ¶
func Rename(ctx context.Context, snapshot Snapshot, f FileHandle, pp protocol.Position, newName string) (map[span.URI][]protocol.TextEdit, bool, error)
Rename returns a map of TextEdits for each file modified when renaming a given identifier within a package and a boolean value of true for renaming package and false otherwise.
func SignatureHelp ¶
func SignatureHelp(ctx context.Context, snapshot Snapshot, fh FileHandle, position protocol.Position) (*protocol.SignatureInformation, int, error)
func SnapshotLabels ¶ added in v0.11.0
SnapshotLabels returns a new slice of labels that should be used for events related to a snapshot.
func SortDiagnostics ¶
func SortDiagnostics(d []*Diagnostic)
func SortPostOrder ¶ added in v0.12.0
func SortPostOrder(meta MetadataSource, ids []PackageID)
SortPostOrder sorts the IDs so that if x depends on y, then y appears before x.
func TestsAndBenchmarks ¶
func TestsAndBenchmarks(ctx context.Context, snapshot Snapshot, fh FileHandle) (testFns, error)
func ToProtocolEdits ¶
ToProtocolEdits converts diff.Edits to a non-nil slice of LSP TextEdits. See https://microsoft.github.io/language-server-protocol/specifications/lsp/3.17/specification/#textEditArray
func TypeDefinition ¶ added in v0.12.0
func TypeDefinition(ctx context.Context, snapshot Snapshot, fh FileHandle, position protocol.Position) ([]protocol.Location, error)
TypeDefinition handles the textDocument/typeDefinition request for Go files.
func WorkspaceSymbols ¶
func WorkspaceSymbols(ctx context.Context, matcher SymbolMatcher, style SymbolStyle, views []View, query string) ([]protocol.SymbolInformation, error)
WorkspaceSymbols matches symbols across all views using the given query, according to the match semantics parameterized by matcherType and style.
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.
Types ¶
type APIJSON ¶
type APIJSON struct { Options map[string][]*OptionJSON Commands []*CommandJSON Lenses []*LensJSON Analyzers []*AnalyzerJSON Hints []*HintJSON }
type Analyzer ¶
type Analyzer struct { Analyzer *analysis.Analyzer // Enabled reports whether the analyzer is enabled. This value can be // configured per-analysis in user settings. For staticcheck analyzers, // the value of the Staticcheck setting overrides this field. // // Most clients should use the IsEnabled method. Enabled bool // Fix is the name of the suggested fix name used to invoke the suggested // fixes for the analyzer. It is non-empty if we expect this analyzer to // provide its fix separately from its diagnostics. That is, we should apply // the analyzer's suggested fixes through a Command, not a TextEdit. Fix string // ActionKind is the kind of code action this analyzer produces. If // unspecified the type defaults to quickfix. ActionKind []protocol.CodeActionKind // Severity is the severity set for diagnostics reported by this // analyzer. If left unset it defaults to Warning. Severity protocol.DiagnosticSeverity }
Analyzer represents a go/analysis analyzer with some boolean properties that let the user know how to use the analyzer.
type AnalyzerJSON ¶
func (*AnalyzerJSON) String ¶
func (a *AnalyzerJSON) String() string
func (*AnalyzerJSON) Write ¶
func (a *AnalyzerJSON) Write(w io.Writer)
type Annotation ¶
type Annotation string
const ( // Nil controls nil checks. Nil Annotation = "nil" // Escape controls diagnostics about escape choices. Escape Annotation = "escape" // Inline controls diagnostics about inlining choices. Inline Annotation = "inline" // Bounds controls bounds checking diagnostics. Bounds Annotation = "bounds" )
type BuildOptions ¶
type BuildOptions struct { // BuildFlags is the set of flags passed on to the build system when invoked. // It is applied to queries like `go list`, which is used when discovering files. // The most common use is to set `-tags`. BuildFlags []string // Env adds environment variables to external commands run by `gopls`, most notably `go list`. Env map[string]string // DirectoryFilters can be used to exclude unwanted directories from the // workspace. By default, all directories are included. Filters are an // operator, `+` to include and `-` to exclude, followed by a path prefix // relative to the workspace folder. They are evaluated in order, and // the last filter that applies to a path controls whether it is included. // The path prefix can be empty, so an initial `-` excludes everything. // // DirectoryFilters also supports the `**` operator to match 0 or more directories. // // Examples: // // Exclude node_modules at current depth: `-node_modules` // // Exclude node_modules at any depth: `-**/node_modules` // // Include only project_a: `-` (exclude everything), `+project_a` // // Include only project_a, but not node_modules inside it: `-`, `+project_a`, `-project_a/node_modules` DirectoryFilters []string // TemplateExtensions gives the extensions of file names that are treateed // as template files. (The extension // is the part of the file name after the final dot.) TemplateExtensions []string // MemoryMode controls the tradeoff `gopls` makes between memory usage and // correctness. // // Values other than `Normal` are untested and may break in surprising ways. MemoryMode MemoryMode `status:"experimental"` // ExpandWorkspaceToModule instructs `gopls` to adjust the scope of the // workspace to find the best available module root. `gopls` first looks for // a go.mod file in any parent directory of the workspace folder, expanding // the scope to that directory if it exists. If no viable parent directory is // found, gopls will check if there is exactly one child directory containing // a go.mod file, narrowing the scope to that directory if it exists. ExpandWorkspaceToModule bool `status:"experimental"` // AllowModfileModifications disables -mod=readonly, allowing imports from // out-of-scope modules. This option will eventually be removed. AllowModfileModifications bool `status:"experimental"` // AllowImplicitNetworkAccess disables GOPROXY=off, allowing implicit module // downloads rather than requiring user action. This option will eventually // be removed. AllowImplicitNetworkAccess bool `status:"experimental"` // StandaloneTags specifies a set of build constraints that identify // individual Go source files that make up the entire main package of an // executable. // // A common example of standalone main files is the convention of using the // directive `//go:build ignore` to denote files that are not intended to be // included in any package, for example because they are invoked directly by // the developer using `go run`. // // Gopls considers a file to be a standalone main file if and only if it has // package name "main" and has a build directive of the exact form // "//go:build tag" or "// +build tag", where tag is among the list of tags // configured by this setting. Notably, if the build constraint is more // complicated than a simple tag (such as the composite constraint // `//go:build tag && go1.18`), the file is not considered to be a standalone // main file. // // This setting is only supported when gopls is built with Go 1.16 or later. StandaloneTags []string }
type ClientOptions ¶
type ClientOptions struct { InsertTextFormat protocol.InsertTextFormat ConfigurationSupported bool DynamicConfigurationSupported bool DynamicRegistrationSemanticTokensSupported bool DynamicWatchedFilesSupported bool PreferredContentFormat protocol.MarkupKind LineFoldingOnly bool HierarchicalDocumentSymbolSupport bool SemanticTypes []string SemanticMods []string RelatedInformationSupported bool CompletionTags bool CompletionDeprecated bool SupportedResourceOperations []protocol.ResourceOperationKind }
ClientOptions holds LSP-specific configuration that is provided by the client.
type CommandJSON ¶
func (*CommandJSON) String ¶
func (c *CommandJSON) String() string
func (*CommandJSON) Write ¶
func (c *CommandJSON) Write(w io.Writer)
type CompletionOptions ¶
type CompletionOptions struct { // Placeholders enables placeholders for function parameters or struct // fields in completion responses. UsePlaceholders bool // CompletionBudget is the soft latency goal for completion requests. Most // requests finish in a couple milliseconds, but in some cases deep // completions can take much longer. As we use up our budget we // dynamically reduce the search scope to ensure we return timely // results. Zero means unlimited. CompletionBudget time.Duration `status:"debug"` // Matcher sets the algorithm that is used when calculating completion // candidates. Matcher Matcher `status:"advanced"` // ExperimentalPostfixCompletions enables artificial method snippets // such as "someSlice.sort!". ExperimentalPostfixCompletions bool `status:"experimental"` }
type CriticalError ¶
type CriticalError struct { // MainError is the primary error. Must be non-nil. MainError error // Diagnostics contains any supplemental (structured) diagnostics. Diagnostics []*Diagnostic }
A CriticalError is a workspace-wide error that generally prevents gopls from functioning correctly. In the presence of critical errors, other diagnostics in the workspace may not make sense.
type Diagnostic ¶
type Diagnostic struct { // TODO(adonovan): should be a protocol.URI, for symmetry. URI span.URI // of diagnosed file (not diagnostic documentation) Range protocol.Range Severity protocol.DiagnosticSeverity Code string CodeHref string // Source is a human-readable description of the source of the error. // Diagnostics generated by an analysis.Analyzer set it to Analyzer.Name. Source DiagnosticSource Message string Tags []protocol.DiagnosticTag Related []protocol.DiagnosticRelatedInformation // Fields below are used internally to generate quick fixes. They aren't // part of the LSP spec and don't leave the server. SuggestedFixes []SuggestedFix }
An Diagnostic corresponds to an LSP Diagnostic. https://microsoft.github.io/language-server-protocol/specification#diagnostic
func (*Diagnostic) String ¶
func (d *Diagnostic) String() string
type DiagnosticOptions ¶
type DiagnosticOptions struct { // Analyses specify analyses that the user would like to enable or disable. // A map of the names of analysis passes that should be enabled/disabled. // A full list of analyzers that gopls uses can be found in // [analyzers.md](https://github.com/golang/tools/blob/master/gopls/doc/analyzers.md). // // Example Usage: // // “`json5 // ... // "analyses": { // "unreachable": false, // Disable the unreachable analyzer. // "unusedparams": true // Enable the unusedparams analyzer. // } // ... // “` Analyses map[string]bool // Staticcheck enables additional analyses from staticcheck.io. // These analyses are documented on // [Staticcheck's website](https://staticcheck.io/docs/checks/). Staticcheck bool `status:"experimental"` // Annotations specifies the various kinds of optimization diagnostics // that should be reported by the gc_details command. Annotations map[Annotation]bool `status:"experimental"` // Vulncheck enables vulnerability scanning. Vulncheck VulncheckMode `status:"experimental"` // DiagnosticsDelay controls the amount of time that gopls waits // after the most recent file modification before computing deep diagnostics. // Simple diagnostics (parsing and type-checking) are always run immediately // on recently modified packages. // // This option must be set to a valid duration string, for example `"250ms"`. DiagnosticsDelay time.Duration `status:"advanced"` }
type DiagnosticSource ¶
type DiagnosticSource string
const ( UnknownError DiagnosticSource = "<Unknown source>" ListError DiagnosticSource = "go list" ParseError DiagnosticSource = "syntax" TypeError DiagnosticSource = "compiler" ModTidyError DiagnosticSource = "go mod tidy" OptimizationDetailsError DiagnosticSource = "optimizer details" UpgradeNotification DiagnosticSource = "upgrade available" Vulncheck DiagnosticSource = "vulncheck imports" Govulncheck DiagnosticSource = "govulncheck" TemplateError DiagnosticSource = "template" WorkFileError DiagnosticSource = "go.work file" ConsistencyInfo DiagnosticSource = "consistency" )
func AnalyzerErrorKind ¶
func AnalyzerErrorKind(name string) DiagnosticSource
type DiffFunction ¶
DiffFunction is the type for a function that produces a set of edits that convert from the before content to the after content.
type DocumentationOptions ¶
type DocumentationOptions struct { // HoverKind controls the information that appears in the hover text. // SingleLine and Structured are intended for use only by authors of editor plugins. HoverKind HoverKind // LinkTarget controls where documentation links go. // It might be one of: // // * `"godoc.org"` // * `"pkg.go.dev"` // // If company chooses to use its own `godoc.org`, its address can be used as well. // // Modules matching the GOPRIVATE environment variable will not have // documentation links in hover. LinkTarget string // LinksInHover toggles the presence of links to documentation in hover. LinksInHover bool }
type FileAction ¶
type FileAction int
func (FileAction) String ¶
func (a FileAction) String() string
type FileHandle ¶
type FileHandle interface { // URI is the URI for this file handle. // TODO(rfindley): this is not actually well-defined. In some cases, there // may be more than one URI that resolve to the same FileHandle. Which one is // this? URI() span.URI // FileIdentity returns a FileIdentity for the file, even if there was an // error reading it. FileIdentity() FileIdentity // Saved reports whether the file has the same content on disk: // it is false for files open on an editor with unsaved edits. Saved() bool // Version returns the file version, as defined by the LSP client. // For on-disk file handles, Version returns 0. Version() int32 // Content returns the contents of a file. // If the file is not available, returns a nil slice and an error. Content() ([]byte, error) }
A FileHandle represents the URI, content, hash, and optional version of a file tracked by the LSP session.
File content may be provided by the file system (for Saved files) or from an overlay, for open files with unsaved edits. A FileHandle may record an attempt to read a non-existent file, in which case Content returns an error.
type FileIdentity ¶
FileIdentity uniquely identifies a file at a version from a FileSystem.
func (FileIdentity) String ¶
func (id FileIdentity) String() string
type FileKind ¶
type FileKind int
FileKind describes the kind of the file in question. It can be one of Go,mod, Sum, or Tmpl.
func FileKindForLang ¶
FileKindForLang returns the file kind associated with the given language ID, or UnknownKind if the language ID is not recognized.
type FileModification ¶
type FileModification struct { URI span.URI Action FileAction // OnDisk is true if a watched file is changed on disk. // If true, Version will be -1 and Text will be nil. OnDisk bool // Version will be -1 and Text will be nil when they are not supplied, // specifically on textDocument/didClose and for on-disk changes. Version int32 Text []byte // LanguageID is only sent from the language client on textDocument/didOpen. LanguageID string }
FileModification represents a modification to a file.
type FileSource ¶
type FileSource interface { // ReadFile returns the FileHandle for a given URI, either by // reading the content of the file or by obtaining it from a cache. ReadFile(ctx context.Context, uri span.URI) (FileHandle, error) }
A FileSource maps URIs to FileHandles.
type Filterer ¶
type Filterer struct {
// contains filtered or unexported fields
}
func NewFilterer ¶
NewFilterer computes regular expression form of all raw filters
type FoldingRangeInfo ¶
type FoldingRangeInfo struct { MappedRange protocol.MappedRange Kind protocol.FoldingRangeKind }
FoldingRangeInfo holds range and kind info of folding for an ast.Node
func FoldingRange ¶
func FoldingRange(ctx context.Context, snapshot Snapshot, fh FileHandle, lineFoldingOnly bool) (ranges []*FoldingRangeInfo, err error)
FoldingRange gets all of the folding range for f.
type FormattingOptions ¶
type FormattingOptions struct { // Local is the equivalent of the `goimports -local` flag, which puts // imports beginning with this string after third-party packages. It should // be the prefix of the import path whose imports should be grouped // separately. Local string // Gofumpt indicates if we should run gofumpt formatting. Gofumpt bool }
type GlobalSnapshotID ¶ added in v0.11.0
type GlobalSnapshotID uint64
A GlobalSnapshotID uniquely identifies a snapshot within this process and increases monotonically with snapshot creation time.
We use a distinct integral type for global IDs to help enforce correct usage.
type Hash ¶
A Hash is a cryptographic digest of the contents of a file. (Although at 32B it is larger than a 16B string header, it is smaller and has better locality than the string header + 64B of hex digits.)
type Hint ¶
type Hint struct { Name string Doc string Run InlayHintFunc }
type Hooks ¶
type Hooks struct { // LicensesText holds third party licenses for software used by gopls. LicensesText string // GoDiff is used in gopls/hooks to get Myers' diff GoDiff bool // Whether staticcheck is supported. StaticcheckSupported bool // ComputeEdits is used to compute edits between file versions. ComputeEdits DiffFunction // URLRegexp is used to find potential URLs in comments/strings. // // Not all matches are shown to the user: if the matched URL is not detected // as valid, it will be skipped. URLRegexp *regexp.Regexp // GofumptFormat allows the gopls module to wire-in a call to // gofumpt/format.Source. langVersion and modulePath are used for some // Gofumpt formatting rules -- see the Gofumpt documentation for details. GofumptFormat func(ctx context.Context, langVersion, modulePath string, src []byte) ([]byte, error) DefaultAnalyzers map[string]*Analyzer TypeErrorAnalyzers map[string]*Analyzer ConvenienceAnalyzers map[string]*Analyzer StaticcheckAnalyzers map[string]*Analyzer }
Hooks contains configuration that is provided to the Gopls command by the main package.
type HoverJSON ¶
type HoverJSON struct { // Synopsis is a single sentence synopsis of the symbol's documentation. Synopsis string `json:"synopsis"` // FullDocumentation is the symbol's full documentation. FullDocumentation string `json:"fullDocumentation"` // Signature is the symbol's signature. Signature string `json:"signature"` // SingleLine is a single line describing the symbol. // This is recommended only for use in clients that show a single line for hover. SingleLine string `json:"singleLine"` // SymbolName is the human-readable name to use for the symbol in links. SymbolName string `json:"symbolName"` // LinkPath is the pkg.go.dev link for the given symbol. // For example, the "go/ast" part of "pkg.go.dev/go/ast#Node". LinkPath string `json:"linkPath"` // LinkAnchor is the pkg.go.dev link anchor for the given symbol. // For example, the "Node" part of "pkg.go.dev/go/ast#Node". LinkAnchor string `json:"linkAnchor"` }
HoverJSON contains information used by hover. It is also the JSON returned for the "structured" hover format
type HoverKind ¶
type HoverKind string
const ( SingleLine HoverKind = "SingleLine" NoDocumentation HoverKind = "NoDocumentation" SynopsisDocumentation HoverKind = "SynopsisDocumentation" FullDocumentation HoverKind = "FullDocumentation" // Structured is an experimental setting that returns a structured hover format. // This format separates the signature from the documentation, so that the client // can do more manipulation of these fields. // // This should only be used by clients that support this behavior. Structured HoverKind = "Structured" )
type ImportFix ¶
func AllImportsFixes ¶
func AllImportsFixes(ctx context.Context, snapshot Snapshot, fh FileHandle) (allFixEdits []protocol.TextEdit, editsPerFix []*ImportFix, err error)
AllImportsFixes formats f for each possible fix to the imports. In addition to returning the result of applying all edits, it returns a list of fixes that could be applied to the file, with the corresponding TextEdits that would be needed to apply that fix.
type ImportPath ¶
type ImportPath string // path that appears in an import declaration (e.g. "example.com/foo")
Declare explicit types for package paths, names, and IDs to ensure that we never use an ID where a path belongs, and vice versa. If we confused these, it would result in confusing errors because package IDs often look like package paths.
func UnquoteImportPath ¶ added in v0.11.0
func UnquoteImportPath(s *ast.ImportSpec) ImportPath
UnquoteImportPath returns the unquoted import path of s, or "" if the path is not properly quoted.
type ImportShortcut ¶
type ImportShortcut string
const ( BothShortcuts ImportShortcut = "Both" LinkShortcut ImportShortcut = "Link" DefinitionShortcut ImportShortcut = "Definition" )
func (ImportShortcut) ShowDefinition ¶
func (s ImportShortcut) ShowDefinition() bool
func (ImportShortcut) ShowLinks ¶
func (s ImportShortcut) ShowLinks() bool
type InlayHintFunc ¶
type InlayHintOptions ¶
type InlayHintOptions struct { // Hints specify inlay hints that users want to see. A full list of hints // that gopls uses can be found in // [inlayHints.md](https://github.com/golang/tools/blob/master/gopls/doc/inlayHints.md). Hints map[string]bool `status:"experimental"` }
type InternalOptions ¶
type InternalOptions struct { // LiteralCompletions controls whether literal candidates such as // "&someStruct{}" are offered. Tests disable this flag to simplify // their expected values. LiteralCompletions bool // VerboseWorkDoneProgress controls whether the LSP server should send // progress reports for all work done outside the scope of an RPC. // Used by the regression tests. VerboseWorkDoneProgress bool // CompletionDocumentation enables documentation with completion results. CompletionDocumentation bool // CompleteUnimported enables completion for packages that you do not // currently import. CompleteUnimported bool // DeepCompletion enables the ability to return completions from deep // inside relevant entities, rather than just the locally accessible ones. // // Consider this example: // // “`go // package main // // import "fmt" // // type wrapString struct { // str string // } // // func main() { // x := wrapString{"hello world"} // fmt.Printf(<>) // } // “` // // At the location of the `<>` in this program, deep completion would suggest // the result `x.str`. DeepCompletion bool // TempModfile controls the use of the -modfile flag in Go 1.14. TempModfile bool // ShowBugReports causes a message to be shown when the first bug is reported // on the server. // This option applies only during initialization. ShowBugReports bool // NewDiff controls the choice of the new diff implementation. It can be // 'new', 'old', or 'both', which is the default. 'both' computes diffs with // both algorithms, checks that the new algorithm has worked, and write some // summary statistics to a file in os.TmpDir(). NewDiff string // ChattyDiagnostics controls whether to report file diagnostics for each // file change. If unset, gopls only reports diagnostics when they change, or // when a file is opened or closed. ChattyDiagnostics bool }
InternalOptions contains settings that are not intended for use by the average user. These may be settings used by tests or outdated settings that will soon be deprecated. Some of these settings may not even be configurable by the user.
type InvocationFlags ¶
type InvocationFlags int
InvocationFlags represents the settings of a particular go command invocation. It is a mode, plus a set of flag bits.
const ( // Normal is appropriate for commands that might be run by a user and don't // deliberately modify go.mod files, e.g. `go test`. Normal InvocationFlags = iota // WriteTemporaryModFile is for commands that need information from a // modified version of the user's go.mod file, e.g. `go mod tidy` used to // generate diagnostics. WriteTemporaryModFile // LoadWorkspace is for packages.Load, and other operations that should // consider the whole workspace at once. LoadWorkspace // AllowNetwork is a flag bit that indicates the invocation should be // allowed to access the network. AllowNetwork InvocationFlags = 1 << 10 )
func (InvocationFlags) AllowNetwork ¶
func (m InvocationFlags) AllowNetwork() bool
func (InvocationFlags) Mode ¶
func (m InvocationFlags) Mode() InvocationFlags
type MemoryMode ¶
type MemoryMode string
const ( ModeNormal MemoryMode = "Normal" // In DegradeClosed mode, `gopls` will collect less information about // packages without open files. As a result, features like Find // References and Rename will miss results in such packages. ModeDegradeClosed MemoryMode = "DegradeClosed" )
type Metadata ¶
type Metadata struct { ID PackageID PkgPath PackagePath Name PackageName // these three fields are as defined by go/packages.Package GoFiles []span.URI CompiledGoFiles []span.URI IgnoredFiles []span.URI ForTest PackagePath // package path under test, or "" TypesSizes types.Sizes Errors []packages.Error // must be set for packages in import cycles DepsByImpPath map[ImportPath]PackageID // may contain dups; empty ID => missing DepsByPkgPath map[PackagePath]PackageID // values are unique and non-empty Module *packages.Module DepsErrors []*packagesinternal.PackageError Diagnostics []*Diagnostic // processed diagnostics from 'go list' LoadDir string // directory from which go/packages was run Standalone bool // package synthesized for a standalone file (e.g. ignore-tagged) }
Metadata represents package metadata retrieved from go/packages. The Deps* maps do not contain self-import edges.
An ad-hoc package (without go.mod or GOPATH) has its ID, PkgPath, and LoadDir equal to the absolute path of its directory.
func NarrowestMetadataForFile ¶ added in v0.12.0
func NarrowestMetadataForFile(ctx context.Context, snapshot Snapshot, uri span.URI) (*Metadata, error)
NarrowestMetadataForFile returns metadata for the narrowest package (the one with the fewest files) that encloses the specified file. The result may be a test variant, but never an intermediate test variant.
func (*Metadata) IsIntermediateTestVariant ¶ added in v0.11.0
IsIntermediateTestVariant reports whether the given package is an intermediate test variant (ITV), e.g. "net/http net/url.test".
An ITV has identical syntax to the regular variant, but different import metadata (DepsBy{Imp,Pkg}Path).
Such test variants arise when an x_test package (in this case net/url_test) imports a package (in this case net/http) that itself imports the non-x_test package (in this case net/url).
This is done so that the forward transitive closure of net/url_test has only one package for the "net/url" import. The ITV exists to hold the test variant import:
net/url_test net/url.test
| "net/http" -> net/http [net/url.test] | "net/url" -> net/url [net/url.test] | ...
net/http net/url.test
| "net/url" -> net/url [net/url.test] | ...
This restriction propagates throughout the import graph of net/http: for every package imported by net/http that imports net/url, there must be an intermediate test variant that instead imports "net/url net/url.test".
As one can see from the example of net/url and net/http, intermediate test variants can result in many additional packages that are essentially (but not quite) identical. For this reason, we filter these variants wherever possible.
Why we mostly ignore intermediate test variants ¶
In projects with complicated tests, there may be a very large number of ITVs--asymptotically more than the number of ordinary variants. Since they have identical syntax, it is fine in most cases to ignore them since the results of analyzing the ordinary variant suffice. However, this is not entirely sound.
Consider this package:
// p/p.go -- in all variants of p package p type T struct { io.Closer } // p/p_test.go -- in test variant of p package p func (T) Close() error { ... }
The ordinary variant "p" defines T with a Close method promoted from io.Closer. But its test variant "p [p.test]" defines a type T with a Close method from p_test.go.
Now consider a package q that imports p, perhaps indirectly. Within it, T.Close will resolve to the first Close method:
// q/q.go -- in all variants of q package q import "p" var _ = new(p.T).Close
Let's assume p also contains this file defining an external test (xtest):
// p/p_x_test.go -- external test of p package p_test import ( "q"; "testing" ) func Test(t *testing.T) { ... }
Note that q imports p, but p's xtest imports q. Now, in "q [p.test]", the intermediate test variant of q built for p's external test, T.Close resolves not to the io.Closer.Close interface method, but to the concrete method of T.Close declared in p_test.go.
If we now request all references to the T.Close declaration in p_test.go, the result should include the reference from q's ITV. (It's not just methods that can be affected; fields can too, though it requires bizarre code to achieve.)
As a matter of policy, gopls mostly ignores this subtlety, because to account for it would require that we type-check every intermediate test variant of p, of which there could be many. Good code doesn't rely on such trickery.
Most callers of MetadataForFile call RemoveIntermediateTestVariants to discard them before requesting type checking, or the products of type-checking such as the cross-reference index or method set index.
MetadataForFile doesn't do this filtering itself becaused in some cases we need to make a reverse dependency query on the metadata graph, and it's important to include the rdeps of ITVs in that query. But the filtering of ITVs should be applied after that step, before type checking.
In general, we should never type check an ITV.
type MetadataQualifier ¶ added in v0.12.0
type MetadataQualifier func(PackageName, ImportPath, PackagePath) string
A MetadataQualifier is a function that qualifies an identifier declared in a package with the given package name, import path, and package path.
In scenarios where metadata is missing the provided PackageName and PackagePath may be empty, but ImportPath must always be non-empty.
func MetadataQualifierForFile ¶ added in v0.12.0
func MetadataQualifierForFile(s MetadataSource, f *ast.File, m *Metadata) MetadataQualifier
MetadataQualifierForFile returns a metadata qualifier that chooses the best qualification of an imported package relative to the file f in package with metadata m.
type MetadataSource ¶ added in v0.12.0
type MetadataSource interface { // Metadata returns Metadata for the given package ID, or nil if it does not // exist. Metadata(PackageID) *Metadata }
A MetadataSource maps package IDs to metadata.
TODO(rfindley): replace this with a concrete metadata graph, once it is exposed from the snapshot.
type NavigationOptions ¶
type NavigationOptions struct { // documentation or go to definitions. ImportShortcut ImportShortcut SymbolMatcher SymbolMatcher `status:"advanced"` // // Example Usage: // // “`json5 // "gopls": { // ... // "symbolStyle": "Dynamic", // ... // } // “` SymbolStyle SymbolStyle `status:"advanced"` // requests. The default value, "workspace", searches only workspace // packages. The legacy behavior, "all", causes all loaded packages to be // searched, including dependencies; this is more expensive and may return // unwanted results. SymbolScope SymbolScope }
type OptionJSON ¶
type OptionJSON struct { Name string Type string Doc string EnumKeys EnumKeys EnumValues []EnumValue Default string Status string Hierarchy string }
func (*OptionJSON) String ¶
func (o *OptionJSON) String() string
func (*OptionJSON) Write ¶
func (o *OptionJSON) Write(w io.Writer)
type OptionResult ¶
type OptionResults ¶
type OptionResults []OptionResult
func SetOptions ¶
func SetOptions(options *Options, opts interface{}) OptionResults
type Options ¶
type Options struct { ClientOptions ServerOptions UserOptions InternalOptions Hooks }
Options holds various configuration that affects Gopls execution, organized by the nature or origin of the settings.
func DefaultOptions ¶
func DefaultOptions() *Options
DefaultOptions is the options that are used for Gopls execution independent of any externally provided configuration (LSP initialization, command invocation, etc.).
func (*Options) AddStaticcheckAnalyzer ¶
func (*Options) EnableAllExperiments ¶
func (o *Options) EnableAllExperiments()
EnableAllExperiments turns on all of the experimental "off-by-default" features offered by gopls. Any experimental features specified in maps should be enabled in enableAllExperimentMaps.
func (*Options) ForClientCapabilities ¶
func (o *Options) ForClientCapabilities(caps protocol.ClientCapabilities)
type Package ¶
type Package interface { Metadata() *Metadata // Results of parsing: FileSet() *token.FileSet CompiledGoFiles() []*ParsedGoFile // (borrowed) File(uri span.URI) (*ParsedGoFile, error) GetSyntax() []*ast.File // (borrowed) HasParseErrors() bool // Results of type checking: GetTypes() *types.Package GetTypesInfo() *types.Info DependencyTypes(PackagePath) *types.Package // nil for indirect dependency of no consequence HasTypeErrors() bool DiagnosticsForFile(ctx context.Context, s Snapshot, uri span.URI) ([]*Diagnostic, error) }
Package represents a Go package that has been parsed and type-checked.
By design, there is no way to reach from a Package to the Package representing one of its dependencies.
Callers must not assume that two Packages share the same token.FileSet or types.Importer and thus have commensurable token.Pos values or types.Objects. Instead, use stable naming schemes, such as (URI, byte offset) for positions, or (PackagePath, objectpath.Path) for exported declarations.
type PackageID ¶ added in v0.11.0
type PackageID string // go list's unique identifier for a package (e.g. "vendor/example.com/foo [vendor/example.com/bar.test]")
Declare explicit types for package paths, names, and IDs to ensure that we never use an ID where a path belongs, and vice versa. If we confused these, it would result in confusing errors because package IDs often look like package paths.
type PackageName ¶ added in v0.11.0
type PackageName string // identifier in 'package' declaration (e.g. "foo")
Declare explicit types for package paths, names, and IDs to ensure that we never use an ID where a path belongs, and vice versa. If we confused these, it would result in confusing errors because package IDs often look like package paths.
type PackagePath ¶ added in v0.11.0
type PackagePath string // name used to prefix linker symbols (e.g. "vendor/example.com/foo")
Declare explicit types for package paths, names, and IDs to ensure that we never use an ID where a path belongs, and vice versa. If we confused these, it would result in confusing errors because package IDs often look like package paths.
func KnownPackagePaths ¶ added in v0.11.0
func KnownPackagePaths(ctx context.Context, snapshot Snapshot, fh FileHandle) ([]PackagePath, error)
KnownPackagePaths returns a new list of package paths of all known packages in the package graph that could potentially be imported by the given file. The list is ordered lexicographically, except that all dot-free paths (standard packages) appear before dotful ones.
It is part of the gopls.list_known_packages command.
type ParsedGoFile ¶
type ParsedGoFile struct { URI span.URI Mode parser.Mode File *ast.File Tok *token.File // Source code used to build the AST. It may be different from the // actual content of the file if we have fixed the AST. Src []byte // FixedSrc and Fixed AST report on "fixing" that occurred during parsing of // this file. // // If FixedSrc == true, the source contained in the Src field was modified // from the original source to improve parsing. // // If FixedAST == true, the ast was modified after parsing, and therefore // positions encoded in the AST may not accurately represent the content of // the Src field. // // TODO(rfindley): there are many places where we haphazardly use the Src or // positions without checking these fields. Audit these places and guard // accordingly. After doing so, we may find that we don't need to // differentiate FixedSrc and FixedAST. FixedSrc bool FixedAST bool Mapper *protocol.Mapper // may map fixed Src, not file content ParseErr scanner.ErrorList }
A ParsedGoFile contains the results of parsing a Go file.
func (ParsedGoFile) Fixed ¶
func (p ParsedGoFile) Fixed() bool
Fixed reports whether p was "Fixed", meaning that its source or positions may not correlate with the original file.
func (*ParsedGoFile) NodeLocation ¶ added in v0.12.0
NodeLocation returns a protocol Location for the ast.Node interval in this file.
func (*ParsedGoFile) NodeMappedRange ¶ added in v0.12.0
func (pgf *ParsedGoFile) NodeMappedRange(node ast.Node) (protocol.MappedRange, error)
NodeMappedRange returns a MappedRange for the ast.Node interval in this file. A MappedRange can be converted to any other form.
func (*ParsedGoFile) NodeRange ¶ added in v0.12.0
NodeRange returns a protocol Range for the ast.Node interval in this file.
func (*ParsedGoFile) PosLocation ¶ added in v0.12.0
PosLocation returns a protocol Location for the token.Pos interval in this file.
func (*ParsedGoFile) PosMappedRange ¶ added in v0.12.0
func (pgf *ParsedGoFile) PosMappedRange(start, end token.Pos) (protocol.MappedRange, error)
PosMappedRange returns a MappedRange for the token.Pos interval in this file. A MappedRange can be converted to any other form.
func (*ParsedGoFile) PosRange ¶ added in v0.12.0
PosRange returns a protocol Range for the token.Pos interval in this file.
func (*ParsedGoFile) PositionPos ¶ added in v0.12.0
PositionPos returns the token.Pos of protocol position p within the file.
type ParsedModule ¶
type ParsedModule struct { URI span.URI File *modfile.File Mapper *protocol.Mapper ParseErrors []*Diagnostic }
A ParsedModule contains the results of parsing a go.mod file.
type ParsedWorkFile ¶
type ParsedWorkFile struct { URI span.URI File *modfile.WorkFile Mapper *protocol.Mapper ParseErrors []*Diagnostic }
A ParsedWorkFile contains the results of parsing a go.work file.
type PrepareItem ¶
A PrepareItem holds the result of a "prepare rename" operation: the source range and value of a selected identifier.
func PrepareRename ¶
func PrepareRename(ctx context.Context, snapshot Snapshot, f FileHandle, pp protocol.Position) (_ *PrepareItem, usererr, err error)
PrepareRename searches for a valid renaming at position pp.
The returned usererr is intended to be displayed to the user to explain why the prepare fails. Probably we could eliminate the redundancy in returning two errors, but for now this is done defensively.
type ServerOptions ¶
type ServerOptions struct { SupportedCodeActions map[FileKind]map[protocol.CodeActionKind]bool SupportedCommands []string }
ServerOptions holds LSP-specific configuration that is provided by the server.
type Snapshot ¶
type Snapshot interface { // SequenceID is the sequence id of this snapshot within its containing // view. // // Relative to their view sequence ids are monotonically increasing, but this // does not hold globally: when new views are created their initial snapshot // has sequence ID 0. For operations that span multiple views, use global // IDs. SequenceID() uint64 // GlobalID is a globally unique identifier for this snapshot. Global IDs are // monotonic: subsequent snapshots will have higher global ID, though // subsequent snapshots in a view may not have adjacent global IDs. GlobalID() GlobalSnapshotID // View returns the View associated with this snapshot. View() View // BackgroundContext returns a context used for all background processing // on behalf of this snapshot. BackgroundContext() context.Context // A Snapshot is a caching implementation of FileSource whose // ReadFile method returns consistent information about the existence // and content of each file throughout its lifetime. FileSource // FindFile returns the FileHandle for the given URI, if it is already // in the given snapshot. // TODO(adonovan): delete this operation; use ReadFile instead. FindFile(uri span.URI) FileHandle // AwaitInitialized waits until the snapshot's view is initialized. AwaitInitialized(ctx context.Context) // IsOpen returns whether the editor currently has a file open. IsOpen(uri span.URI) bool // IgnoredFile reports if a file would be ignored by a `go list` of the whole // workspace. IgnoredFile(uri span.URI) bool // Templates returns the .tmpl files Templates() map[span.URI]FileHandle // ParseGo returns the parsed AST for the file. // If the file is not available, returns nil and an error. // Position information is added to FileSet(). ParseGo(ctx context.Context, fh FileHandle, mode parser.Mode) (*ParsedGoFile, error) // Analyze runs the specified analyzers on the given package at this snapshot. Analyze(ctx context.Context, id PackageID, analyzers []*Analyzer) ([]*Diagnostic, error) // RunGoCommandPiped runs the given `go` command, writing its output // to stdout and stderr. Verb, Args, and WorkingDir must be specified. // // RunGoCommandPiped runs the command serially using gocommand.RunPiped, // enforcing that this command executes exclusively to other commands on the // server. RunGoCommandPiped(ctx context.Context, mode InvocationFlags, inv *gocommand.Invocation, stdout, stderr io.Writer) error // RunGoCommandDirect runs the given `go` command. Verb, Args, and // WorkingDir must be specified. RunGoCommandDirect(ctx context.Context, mode InvocationFlags, inv *gocommand.Invocation) (*bytes.Buffer, error) // RunGoCommands runs a series of `go` commands that updates the go.mod // and go.sum file for wd, and returns their updated contents. RunGoCommands(ctx context.Context, allowNetwork bool, wd string, run func(invoke func(...string) (*bytes.Buffer, error)) error) (bool, []byte, []byte, error) // RunProcessEnvFunc runs fn with the process env for this snapshot's view. // Note: the process env contains cached module and filesystem state. RunProcessEnvFunc(ctx context.Context, fn func(context.Context, *imports.Options) error) error // ModFiles are the go.mod files enclosed in the snapshot's view and known // to the snapshot. ModFiles() []span.URI // ParseMod is used to parse go.mod files. ParseMod(ctx context.Context, fh FileHandle) (*ParsedModule, error) // ModWhy returns the results of `go mod why` for the module specified by // the given go.mod file. ModWhy(ctx context.Context, fh FileHandle) (map[string]string, error) // ModTidy returns the results of `go mod tidy` for the module specified by // the given go.mod file. ModTidy(ctx context.Context, pm *ParsedModule) (*TidiedModule, error) // ModVuln returns import vulnerability analysis for the given go.mod URI. // Concurrent requests are combined into a single command. ModVuln(ctx context.Context, modURI span.URI) (*govulncheck.Result, error) // GoModForFile returns the URI of the go.mod file for the given URI. GoModForFile(uri span.URI) span.URI // WorkFile, if non-empty, is the go.work file for the workspace. WorkFile() span.URI // ParseWork is used to parse go.work files. ParseWork(ctx context.Context, fh FileHandle) (*ParsedWorkFile, error) // BuiltinFile returns information about the special builtin package. BuiltinFile(ctx context.Context) (*ParsedGoFile, error) // IsBuiltin reports whether uri is part of the builtin package. IsBuiltin(uri span.URI) bool // CriticalError returns any critical errors in the workspace. // // A nil result may mean success, or context cancellation. CriticalError(ctx context.Context) *CriticalError // Symbols returns all symbols in the snapshot. // // If workspaceOnly is set, this only includes symbols from files in a // workspace package. Otherwise, it returns symbols from all loaded packages. Symbols(ctx context.Context, workspaceOnly bool) (map[span.URI][]Symbol, error) // ReverseDependencies returns a new mapping whose entries are // the ID and Metadata of each package in the workspace that // directly or transitively depend on the package denoted by id, // excluding id itself. ReverseDependencies(ctx context.Context, id PackageID, transitive bool) (map[PackageID]*Metadata, error) // WorkspaceMetadata returns a new, unordered slice containing // metadata for all ordinary and test packages (but not // intermediate test variants) in the workspace. // // The workspace is the set of modules typically defined by a // go.work file. It is not transitively closed: for example, // the standard library is not usually part of the workspace // even though every module in the workspace depends on it. // // Operations that must inspect all the dependencies of the // workspace packages should instead use AllMetadata. WorkspaceMetadata(ctx context.Context) ([]*Metadata, error) // AllMetadata returns a new unordered array of metadata for // all packages known to this snapshot, which includes the // packages of all workspace modules plus their transitive // import dependencies. // // It may also contain ad-hoc packages for standalone files. // It includes all test variants. AllMetadata(ctx context.Context) ([]*Metadata, error) // Metadata returns the metadata for the specified package, // or nil if it was not found. Metadata(id PackageID) *Metadata // MetadataForFile returns a new slice containing metadata for each // package containing the Go file identified by uri, ordered by the // number of CompiledGoFiles (i.e. "narrowest" to "widest" package), // and secondarily by IsIntermediateTestVariant (false < true). // The result may include tests and intermediate test variants of // importable packages. // It returns an error if the context was cancelled. MetadataForFile(ctx context.Context, uri span.URI) ([]*Metadata, error) // OrphanedFileDiagnostics reports diagnostics for files that have no package // associations or which only have only command-line-arguments packages. // // The caller must not mutate the result. OrphanedFileDiagnostics(ctx context.Context) (map[span.URI]*Diagnostic, error) // TypeCheck parses and type-checks the specified packages, // and returns them in the same order as the ids. // The resulting packages' types may belong to different importers, // so types from different packages are incommensurable. // // In general, clients should never need to type-checked // syntax for an intermediate test variant (ITV) package. // Callers should apply RemoveIntermediateTestVariants (or // equivalent) before this method, or any of the potentially // type-checking methods below. TypeCheck(ctx context.Context, ids ...PackageID) ([]Package, error) // PackageDiagnostics returns diagnostics for files contained in specified // packages. // // If these diagnostics cannot be loaded from cache, the requested packages // may be type-checked. PackageDiagnostics(ctx context.Context, ids ...PackageID) (map[span.URI][]*Diagnostic, error) // References returns cross-references indexes for the specified packages. // // If these indexes cannot be loaded from cache, the requested packages may // be type-checked. References(ctx context.Context, ids ...PackageID) ([]XrefIndex, error) // MethodSets returns method-set indexes for the specified packages. // // If these indexes cannot be loaded from cache, the requested packages may // be type-checked. MethodSets(ctx context.Context, ids ...PackageID) ([]*methodsets.Index, error) }
Snapshot represents the current state for the given view.
type SoftError ¶
type SoftError struct {
// contains filtered or unexported fields
}
A SoftError is an error that does not affect the functionality of gopls.
type SuggestedFix ¶
type SuggestedFix struct { Title string Edits map[span.URI][]protocol.TextEdit Command *protocol.Command ActionKind protocol.CodeActionKind }
func SuggestedFixFromCommand ¶
func SuggestedFixFromCommand(cmd protocol.Command, kind protocol.CodeActionKind) SuggestedFix
type SuggestedFixFunc ¶
type SuggestedFixFunc func(ctx context.Context, snapshot Snapshot, fh FileHandle, pRng protocol.Range) (*token.FileSet, *analysis.SuggestedFix, error)
SuggestedFixFunc is a function used to get the suggested fixes for a given gopls command, some of which are provided by go/analysis.Analyzers. Some of the analyzers in internal/lsp/analysis are not efficient enough to include suggested fixes with their diagnostics, so we have to compute them separately. Such analyzers should provide a function with a signature of SuggestedFixFunc.
The returned FileSet must map all token.Pos found in the suggested text edits.
type Symbol ¶
type Symbol struct { Name string Kind protocol.SymbolKind Range protocol.Range }
Symbol holds a precomputed symbol value. Note: we avoid using the protocol.SymbolInformation struct here in order to reduce the size of each symbol.
type SymbolMatcher ¶
type SymbolMatcher string
A SymbolMatcher controls the matching of symbols for workspace/symbol requests.
const ( SymbolFuzzy SymbolMatcher = "Fuzzy" SymbolFastFuzzy SymbolMatcher = "FastFuzzy" SymbolCaseInsensitive SymbolMatcher = "CaseInsensitive" SymbolCaseSensitive SymbolMatcher = "CaseSensitive" )
type SymbolScope ¶ added in v0.12.0
type SymbolScope string
A SymbolScope controls the search scope for workspace/symbol requests.
const ( // WorkspaceSymbolScope matches symbols in workspace packages only. WorkspaceSymbolScope SymbolScope = "workspace" // AllSymbolScope matches symbols in any loaded package, including // dependencies. AllSymbolScope SymbolScope = "all" )
type SymbolStyle ¶
type SymbolStyle string
A SymbolStyle controls the formatting of symbols in workspace/symbol results.
const ( // PackageQualifiedSymbols is package qualified symbols i.e. // "pkg.Foo.Field". PackageQualifiedSymbols SymbolStyle = "Package" // FullyQualifiedSymbols is fully qualified symbols, i.e. // "path/to/pkg.Foo.Field". FullyQualifiedSymbols SymbolStyle = "Full" // DynamicSymbols uses whichever qualifier results in the highest scoring // match for the given symbol query. Here a "qualifier" is any "/" or "." // delimited suffix of the fully qualified symbol. i.e. "to/pkg.Foo.Field" or // just "Foo.Field". DynamicSymbols SymbolStyle = "Dynamic" )
type TidiedModule ¶
type TidiedModule struct { // Diagnostics representing changes made by `go mod tidy`. Diagnostics []*Diagnostic // The bytes of the go.mod file after it was tidied. TidiedContent []byte }
A TidiedModule contains the results of running `go mod tidy` on a module.
type UIOptions ¶
type UIOptions struct { DocumentationOptions CompletionOptions DiagnosticOptions InlayHintOptions // Codelenses overrides the enabled/disabled state of code lenses. See the // "Code Lenses" section of the // [Settings page](https://github.com/golang/tools/blob/master/gopls/doc/settings.md#code-lenses) // for the list of supported lenses. // // Example Usage: // // “`json5 // "gopls": { // ... // "codelenses": { // "generate": false, // Don't show the `go generate` lens. // "gc_details": true // Show a code lens toggling the display of gc's choices. // } // ... // } // “` Codelenses map[string]bool // SemanticTokens controls whether the LSP server will send // semantic tokens to the client. SemanticTokens bool `status:"experimental"` // NoSemanticString turns off the sending of the semantic token 'string' NoSemanticString bool `status:"experimental"` // NoSemanticNumber turns off the sending of the semantic token 'number' NoSemanticNumber bool `status:"experimental"` }
type UserOptions ¶
type UserOptions struct { BuildOptions UIOptions FormattingOptions // VerboseOutput enables additional debug logging. VerboseOutput bool `status:"debug"` }
UserOptions holds custom Gopls configuration (not part of the LSP) that is modified by the client.
func (*UserOptions) EnvSlice ¶
func (u *UserOptions) EnvSlice() []string
EnvSlice returns Env as a slice of k=v strings.
func (*UserOptions) SetEnvSlice ¶
func (u *UserOptions) SetEnvSlice(env []string)
SetEnvSlice sets Env from a slice of k=v strings.
type View ¶
type View interface { // ID returns a globally unique identifier for this view. ID() string // Name returns the name this view was constructed with. Name() string // Folder returns the folder with which this view was created. Folder() span.URI // Options returns a copy of the Options for this view. Options() *Options // Snapshot returns the current snapshot for the view, and a // release function that must be called when the Snapshot is // no longer needed. // // If the view is shut down, the resulting error will be non-nil, and the // release function need not be called. Snapshot() (Snapshot, func(), error) // IsGoPrivatePath reports whether target is a private import path, as identified // by the GOPRIVATE environment variable. IsGoPrivatePath(path string) bool // ModuleUpgrades returns known module upgrades for the dependencies of // modfile. ModuleUpgrades(modfile span.URI) map[string]string // RegisterModuleUpgrades registers that upgrades exist for the given modules // required by modfile. RegisterModuleUpgrades(modfile span.URI, upgrades map[string]string) // ClearModuleUpgrades clears all upgrades for the modules in modfile. ClearModuleUpgrades(modfile span.URI) // Vulnerabilities returns known vulnerabilities for the given modfile. // TODO(suzmue): replace command.Vuln with a different type, maybe // https://pkg.go.dev/golang.org/x/vuln/cmd/govulncheck/govulnchecklib#Summary? Vulnerabilities(modfile ...span.URI) map[span.URI]*govulncheck.Result // SetVulnerabilities resets the list of vulnerabilities that exists for the given modules // required by modfile. SetVulnerabilities(modfile span.URI, vulncheckResult *govulncheck.Result) // FileKind returns the type of a file. // // We can't reliably deduce the kind from the file name alone, // as some editors can be told to interpret a buffer as // language different from the file name heuristic, e.g. that // an .html file actually contains Go "html/template" syntax, // or even that a .go file contains Python. FileKind(FileHandle) FileKind // GoVersion returns the configured Go version for this view. GoVersion() int // GoVersionString returns the go version string configured for this view. // Unlike [GoVersion], this encodes the minor version and commit hash information. GoVersionString() string }
View represents a single workspace. This is the level at which we maintain configuration like working directory and build tags.
type VulncheckMode ¶ added in v0.11.0
type VulncheckMode string
const ( // Disable vulnerability analysis. ModeVulncheckOff VulncheckMode = "Off" // In Imports mode, `gopls` will report vulnerabilities that affect packages // directly and indirectly used by the analyzed main module. ModeVulncheckImports VulncheckMode = "Imports" )
type XrefIndex ¶ added in v0.12.0
type XrefIndex interface {
Lookup(targets map[PackagePath]map[objectpath.Path]struct{}) (locs []protocol.Location)
}
Source Files ¶
- add_import.go
- api_json.go
- call_hierarchy.go
- code_lens.go
- comment_go119.go
- definition.go
- diagnostics.go
- extract.go
- fix.go
- folding_range.go
- format.go
- gc_annotations.go
- highlight.go
- hover.go
- identifier.go
- implementation.go
- inlay_hint.go
- invertifcondition.go
- known_packages.go
- linkname.go
- options.go
- parsemode_go117.go
- references.go
- rename.go
- rename_check.go
- signature_help.go
- stub.go
- symbols.go
- type_definition.go
- types_format.go
- util.go
- view.go
- workspace_symbol.go
Directories ¶
Path | Synopsis |
---|---|
Package completion provides core functionality for code completion in Go editors and tools.
|
Package completion provides core functionality for code completion in Go editors and tools. |
Package methodsets defines an incremental, serializable index of method-set information that allows efficient 'implements' queries across packages of the workspace without using the type checker.
|
Package methodsets defines an incremental, serializable index of method-set information that allows efficient 'implements' queries across packages of the workspace without using the type checker. |
Package typerefs extracts symbol-level reachability information from the syntax of a Go package.
|
Package typerefs extracts symbol-level reachability information from the syntax of a Go package. |
Package xrefs defines the serializable index of cross-package references that is computed during type checking.
|
Package xrefs defines the serializable index of cross-package references that is computed during type checking. |