Settings

This extension is highly configurable, and as such, offers a number of settings. These can be configured by modifying your User or Workspace Settings.

To navigate to your settings, open the Command Palette (Ctrl+Shift+P or Cmd+Shift+P) and search for “settings”. The simplest way to modify your settings is through “Preferences: Open Settings (UI)”.

For tuning the features provided by gopls, see the section for gopls settings.

Latest changes

The settings described below are up-to-date as of January 2021. We do our best to keep documentation current, but if a setting is missing, you can always consult the full list in the Extensions view. Documentation for each setting should also be visible in the Settings UI.

To view the list of settings:

  1. Navigate to the Extensions view (Ctrl+Shift+X).
  2. Find the Go extension and click on it to open the Extension Editor.
  3. Click on the Feature Contributions tab.
  4. Scroll through the list under Settings.

Security

This extension runs a few third-party command-line tools found from the locations determined by the PATH or Path environment variable, and the settings such as "go.alternateTools" or "go.toolsGopath". Configuring them in workspace settings allows users to conveniently select a different set of tools based on project's need, but also allows attackers to run arbitrary binaries on your machine if they successfuly convince you to open a random repository. In order to reduce the security risk, the extension reads those settings from user settings by default. If the repository can be trusted and workspace settings must be used, you can mark the workspace as a trusted workspace using the "Go: Toggle Workspace Trust Flag" command.

Detailed list

go.addTags

Tags and options configured here will be used by the Add Tags command to add tags to struct fields. If promptForTags is true, then user will be prompted for tags and options. By default, json tags are added. | Properties | Description | | --- | --- | | options | Comma separated tag=options pairs to be used by Go: Add Tags command
Default: "json=omitempty" | | promptForTags | If true, Go: Add Tags command will prompt the user to provide tags, options, transform values instead of using the configured values
Default: false | | tags | Comma separated tags to be used by Go: Add Tags command
Default: "json" | | template | Custom format used by Go: Add Tags command for the tag value to be applied
Default: "" | | transform | Transformation rule used by Go: Add Tags command to add tags
Allowed Options: snakecase, camelcase, lispcase, pascalcase, keep
Default: "snakecase" |

Default:

{
	"options" :	"json=omitempty",
	"promptForTags" :	false,
	"tags" :	"json",
	"template" :	"",
	"transform" :	"snakecase",
}

go.alternateTools

Alternate tools or alternate paths for the same tools used by the Go extension. Provide either absolute path or the name of the binary in GOPATH/bin, GOROOT/bin or PATH. Useful when you want to use wrapper script for the Go tools. | Properties | Description | | --- | --- | | customFormatter | Custom formatter to use instead of the language server. This should be used with the custom option in #go.formatTool#.
Default: "" | | dlv | Alternate tool to use instead of the dlv binary or alternate path to use for the dlv binary.
Default: "dlv" | | go | Alternate tool to use instead of the go binary or alternate path to use for the go binary.
Default: "go" | | gopls | Alternate tool to use instead of the gopls binary or alternate path to use for the gopls binary.
Default: "gopls" |

go.buildFlags

Flags to go build/go test used during build-on-save or running tests. (e.g. [“-ldflags=‘-s’”]) This is propagated to the language server if gopls.build.buildFlags is not specified.

go.buildOnSave (deprecated)

Enable the Go language server (#go.useLanguageServer#) to diagnose compile errors. Compiles code on file save using ‘go build’ or ‘go test -c’. Not applicable when using the language server.
Allowed Options: package, workspace, off

Default: "package"

go.buildTags

The Go build tags to use for all commands, that support a -tags '...' argument. When running tests, go.testTags will be used instead if it was set. This is propagated to the language server if gopls.build.buildFlags is not specified.

Default: ""

go.coverMode

When generating code coverage, the value for -covermode. ‘default’ is the default value chosen by the ‘go test’ command.
Allowed Options: default, set, count, atomic

Default: "default"

go.coverOnSave

If true, runs ‘go test -coverprofile’ on save and shows test coverage.

Default: false

go.coverOnSingleTest

If true, shows test coverage when Go: Test Function at cursor command is run.

Default: false

go.coverOnSingleTestFile

If true, shows test coverage when Go: Test Single File command is run.

Default: false

go.coverOnTestPackage

If true, shows test coverage when Go: Test Package command is run.

Default: true

go.coverShowCounts

When generating code coverage, should counts be shown as --374--

Default: false

go.coverageDecorator

This option lets you choose the way to display code coverage. Choose either to highlight the complete line or to show a decorator in the gutter. You can customize the colors and borders for the former and the style for the latter. | Properties | Description | | --- | --- | | coveredBorderColor | Color to use for the border of covered code. | | coveredGutterStyle | Gutter style to indicate covered code.
Allowed Options: blockblue, blockred, blockgreen, blockyellow, slashred, slashgreen, slashblue, slashyellow, verticalred, verticalgreen, verticalblue, verticalyellow | | coveredHighlightColor | Color in the rgba format to use to highlight covered code. | | type |

Allowed Options: highlight, gutter | | uncoveredBorderColor | Color to use for the border of uncovered code. | | uncoveredGutterStyle | Gutter style to indicate covered code.
Allowed Options: blockblue, blockred, blockgreen, blockyellow, slashred, slashgreen, slashblue, slashyellow, verticalred, verticalgreen, verticalblue, verticalyellow | | uncoveredHighlightColor | Color in the rgba format to use to highlight uncovered code. |

Default:

{
	"coveredBorderColor" :	"rgba(64,128,128,0.5)",
	"coveredGutterStyle" :	"blockblue",
	"coveredHighlightColor" :	"rgba(64,128,128,0.5)",
	"type" :	"highlight",
	"uncoveredBorderColor" :	"rgba(128,64,64,0.25)",
	"uncoveredGutterStyle" :	"slashyellow",
	"uncoveredHighlightColor" :	"rgba(128,64,64,0.25)",
}

go.coverageOptions

Use these options to control whether only covered or only uncovered code or both should be highlighted after running test coverage
Allowed Options: showCoveredCodeOnly, showUncoveredCodeOnly, showBothCoveredAndUncoveredCode

Default: "showBothCoveredAndUncoveredCode"

go.delveConfig

Delve settings that applies to all debugging sessions. Debug configuration in the launch.json file will override these values. | Properties | Description | | --- | --- | | apiVersion | Delve Api Version to use. Default value is 2. This applies only when using the ‘legacy’ debug adapter.
Allowed Options: 1, 2
Default: 2 | | debugAdapter | Select which debug adapter to use by default. This is also used for choosing which debug adapter to use when no launch.json is present and with codelenses.
Allowed Options: legacy, dlv-dap
Default: "dlv-dap" | | dlvFlags | Extra flags for dlv. See dlv help for the full list of supported. Flags such as --log-output, --log, --log-dest, --api-version, --output, --backend already have corresponding properties in the debug configuration, and flags such as --listen and --headless are used internally. If they are specified in dlvFlags, they may be ignored or cause an error. | | dlvLoadConfig | LoadConfig describes to delve, how to load values from target‘s memory. Ignored by ‘dlv-dap’.
Default: { <pre>"followPointers" : true,<br/>"maxArrayValues" : 64,<br/>"maxStringLen" : 64,<br/>"maxStructFields" : -1,<br/>"maxVariableRecurse" : 1,</pre>} | | hideSystemGoroutines | Boolean value to indicate whether system goroutines should be hidden from call stack view.
Default: false | | logOutput | Comma separated list of components that should produce debug output. Maps to dlv’s --log-output flag. Check dlv log for details.
Allowed Options: debugger, gdbwire, lldbout, debuglineerr, rpc, dap
Default: "debugger" | | showGlobalVariables | Boolean value to indicate whether global package variables should be shown in the variables pane or not.
Default: false | | showLog | Show log output from the delve debugger. Maps to dlv's --log flag.
Default: false | | showRegisters | Boolean value to indicate whether register variables should be shown in the variables pane or not.
Default: false | | substitutePath | An array of mappings from a local path to the remote path that is used by the debuggee. The debug adapter will replace the local path with the remote path in all of the calls. Overriden by remotePath (in attach request). |

go.diagnostic.vulncheck

(Experimental) vulncheck enables vulnerability scanning.
Allowed Options:

  • Imports: "Imports": In Imports mode, gopls will report vulnerabilities that affect packages directly and indirectly used by the analyzed main module.
  • Off: "Off": Disable vulnerability analysis.

Default: "Off"

go.disableConcurrentTests

If true, tests will not run concurrently. When a new test run is started, the previous will be cancelled.

Default: false

go.editorContextMenuCommands

Experimental Feature: Enable/Disable entries from the context menu in the editor. | Properties | Description | | --- | --- | | addImport | If true, adds command to import a package to the editor context menu
Default: true | | addTags | If true, adds command to add configured tags from struct fields to the editor context menu
Default: true | | benchmarkAtCursor | If true, adds command to benchmark the test under the cursor to the editor context menu
Default: false | | debugTestAtCursor | If true, adds command to debug the test under the cursor to the editor context menu
Default: false | | fillStruct | If true, adds command to fill struct literal with default values to the editor context menu
Default: true | | generateTestForFile | If true, adds command to generate unit tests for current file to the editor context menu
Default: true | | generateTestForFunction | If true, adds command to generate unit tests for function under the cursor to the editor context menu
Default: true | | generateTestForPackage | If true, adds command to generate unit tests for current package to the editor context menu
Default: true | | playground | If true, adds command to upload the current file or selection to the Go Playground
Default: true | | removeTags | If true, adds command to remove configured tags from struct fields to the editor context menu
Default: true | | testAtCursor | If true, adds command to run the test under the cursor to the editor context menu
Default: false | | testCoverage | If true, adds command to run test coverage to the editor context menu
Default: true | | testFile | If true, adds command to run all tests in the current file to the editor context menu
Default: true | | testPackage | If true, adds command to run all tests in the current package to the editor context menu
Default: true | | toggleTestFile | If true, adds command to toggle between a Go file and its test file to the editor context menu
Default: true |

Default:

{
	"addImport" :	true,
	"addTags" :	true,
	"benchmarkAtCursor" :	false,
	"debugTestAtCursor" :	true,
	"fillStruct" :	false,
	"generateTestForFile" :	false,
	"generateTestForFunction" :	true,
	"generateTestForPackage" :	false,
	"playground" :	true,
	"removeTags" :	false,
	"testAtCursor" :	true,
	"testCoverage" :	true,
	"testFile" :	false,
	"testPackage" :	false,
	"toggleTestFile" :	true,
}

go.enableCodeLens

Feature level setting to enable/disable code lens for references and run/debug tests | Properties | Description | | --- | --- | | runtest | If true, enables code lens for running and debugging tests
Default: true |

Default:

{
	"runtest" :	true,
}

go.formatFlags

Flags to pass to format tool (e.g. [“-s”]). Not applicable when using the language server.

go.formatTool

When the language server is enabled and one of default/gofmt/goimports/gofumpt is chosen, the language server will handle formatting. If custom tool is selected, the extension will use the customFormatter tool in the #go.alternateTools# section.
Allowed Options:

  • default: If the language server is enabled, format via the language server, which already supports gofmt, goimports, goreturns, and gofumpt. Otherwise, goimports.
  • gofmt: Formats the file according to the standard Go style. (not applicable when the language server is enabled)
  • goimports: Organizes imports and formats the file with gofmt. (not applicable when the language server is enabled)
  • goformat: Configurable gofmt, see https://github.com/mbenkmann/goformat.
  • gofumpt: Stricter version of gofmt, see https://github.com/mvdan/gofumpt. . Use #gopls.format.gofumpt# instead)
  • custom: Formats using the custom tool specified as customFormatter in the #go.alternateTools# setting. The tool should take the input as STDIN and output the formatted code as STDOUT.

Default: "default"

go.generateTestsFlags

Additional command line flags to pass to gotests for generating tests.

go.gopath

Specify GOPATH here to override the one that is set as environment variable. The inferred GOPATH from workspace root overrides this, if go.inferGopath is set to true.

go.goroot

Specifies the GOROOT to use when no environment variable is set.

go.inferGopath

Infer GOPATH from the workspace root. This is ignored when using Go Modules.

Default: false

go.inlayHints.assignVariableTypes

Enable/disable inlay hints for variable types in assign statements:

	i/* int*/, j/* int*/ := 0, len(r)-1

Default: false

go.inlayHints.compositeLiteralFields

Enable/disable inlay hints for composite literal field names:

	{/*in: */"Hello, world", /*want: */"dlrow ,olleH"}

Default: false

go.inlayHints.compositeLiteralTypes

Enable/disable inlay hints for composite literal types:

	for _, c := range []struct {
		in, want string
	}{
		/*struct{ in string; want string }*/{"Hello, world", "dlrow ,olleH"},
	}

Default: false

go.inlayHints.constantValues

Enable/disable inlay hints for constant values:

	const (
		KindNone   Kind = iota/* = 0*/
		KindPrint/*  = 1*/
		KindPrintf/* = 2*/
		KindErrorf/* = 3*/
	)

Default: false

go.inlayHints.functionTypeParameters

Enable/disable inlay hints for implicit type parameters on generic functions:

	myFoo/*[int, string]*/(1, "hello")

Default: false

go.inlayHints.parameterNames

Enable/disable inlay hints for parameter names:

	parseInt(/* str: */ "123", /* radix: */ 8)

Default: false

go.inlayHints.rangeVariableTypes

Enable/disable inlay hints for variable types in range statements:

	for k/* int*/, v/* string*/ := range []string{} {
		fmt.Println(k, v)
	}

Default: false

go.installDependenciesWhenBuilding

If true, then -i flag will be passed to go build everytime the code is compiled. Since Go 1.10, setting this may be unnecessary unless you are in GOPATH mode and do not use the language server.

Default: false

go.languageServerFlags

Flags like -rpc.trace and -logfile to be used while running the language server.

go.lintFlags

Flags to pass to Lint tool (e.g. [“-min_confidence=.8”])

go.lintOnSave

Lints code on file save using the configured Lint tool. Options are ‘file’, ‘package’, ‘workspace’ or ‘off’.
Allowed Options:

  • file: lint the current file on file saving
  • package: lint the current package on file saving
  • workspace: lint all the packages in the current workspace root folder on file saving
  • off: do not run lint automatically

Default: "package"

go.lintTool

Specifies Lint tool name.
Allowed Options: staticcheck, golint, golangci-lint, revive

Default: "staticcheck"

go.logging.level (deprecated)

This setting is deprecated. Use ‘Developer: Set Log Level...’ command to control logging level instead.

go.playground

The flags configured here will be passed through to command goplay | Properties | Description | | --- | --- | | openbrowser | Whether to open the created Go Playground in the default browser
Default: true | | run | Whether to run the created Go Playground after creation
Default: true | | share | Whether to make the created Go Playground shareable
Default: true |

Default:

{
	"openbrowser" :	true,
	"run" :	true,
	"share" :	true,
}

go.removeTags

Tags and options configured here will be used by the Remove Tags command to remove tags to struct fields. If promptForTags is true, then user will be prompted for tags and options. By default, all tags and options will be removed. | Properties | Description | | --- | --- | | options | Comma separated tag=options pairs to be used by Go: Remove Tags command
Default: "json=omitempty" | | promptForTags | If true, Go: Remove Tags command will prompt the user to provide tags and options instead of using the configured values
Default: false | | tags | Comma separated tags to be used by Go: Remove Tags command
Default: "json" |

Default:

{
	"options" :	"",
	"promptForTags" :	false,
	"tags" :	"",
}

go.showWelcome

Specifies whether to show the Welcome experience on first install

Default: true

go.survey.prompt

Prompt for surveys, including the gopls survey and the Go developer survey.

Default: true

go.tasks.provideDefault

enable the default go build/test task provider.

Default: true

go.terminal.activateEnvironment

Apply the Go & PATH environment variables used by the extension to all integrated terminals.

Default: true

go.testEnvFile

Absolute path to a file containing environment variables definitions. File contents should be of the form key=value.

go.testEnvVars

Environment variables that will be passed to the process that runs the Go tests

go.testExplorer.alwaysRunBenchmarks

Run benchmarks when running all tests in a file or folder.

Default: false

go.testExplorer.concatenateMessages

Concatenate all test log messages for a given location into a single message.

Default: true

go.testExplorer.enable

Enable the Go test explorer

Default: true

go.testExplorer.packageDisplayMode

Present packages in the test explorer flat or nested.
Allowed Options: flat, nested

Default: "flat"

go.testExplorer.showDynamicSubtestsInEditor

Set the source location of dynamically discovered subtests to the location of the containing function. As a result, dynamically discovered subtests will be added to the gutter test widget of the containing function.

Default: false

go.testExplorer.showOutput

Open the test output terminal when a test run is started.

Default: true

go.testFlags

Flags to pass to go test. If null, then buildFlags will be used. This is not propagated to the language server.

go.testOnSave

Run ‘go test’ on save for current package. It is not advised to set this to true when you have Auto Save enabled.

Default: false

go.testTags

The Go build tags to use for when running tests. If null, then buildTags will be used.

go.testTimeout

Specifies the timeout for go test in ParseDuration format.

Default: "30s"

go.toolsEnvVars

Environment variables that will be passed to the tools that run the Go tools (e.g. CGO_CFLAGS) and debuggee process launched by Delve. Format as string key:value pairs. When debugging, merged with envFile and env values with precedence env > envFile > go.toolsEnvVars.

go.toolsGopath

Location to install the Go tools that the extension depends on if you don't want them in your GOPATH.

go.toolsManagement.autoUpdate

Automatically update the tools used by the extension, without prompting the user.

Default: false

go.toolsManagement.checkForUpdates

Specify whether to prompt about new versions of Go and the Go tools (currently, only gopls) the extension depends on
Allowed Options:

  • proxy: keeps notified of new releases by checking the Go module proxy (GOPROXY)
  • local: checks only the minimum tools versions required by the extension
  • off: completely disables version check (not recommended)

Default: "proxy"

go.toolsManagement.go

The path to the go binary used to install the Go tools. If it's empty, the same go binary chosen for the project will be used for tool installation.

Default: ""

go.trace.server

Trace the communication between VS Code and the Go language server.
Allowed Options: off, messages, verbose

Default: "off"

go.useLanguageServer

Enable intellisense, code navigation, refactoring, formatting & diagnostics for Go. The features are powered by the Go language server “gopls”.

Default: true

go.vetFlags

Flags to pass to go tool vet (e.g. [“-all”, “-shadow”]). Not applicable when using the language server's diagnostics.

go.vetOnSave

Vets code on file save using ‘go tool vet’. Not applicable when using the language server's diagnostics.
Allowed Options:

  • package: vet the current package on file saving
  • workspace: vet all the packages in the current workspace root folder on file saving
  • off: do not run vet automatically

Default: "package"

gopls

Customize gopls behavior by specifying the gopls' settings in this section. For example,

"gopls" : {
	"build.directoryFilters": ["-node_modules"]
	...
}

This section is directly read by gopls. See the gopls section section for the full list of gopls settings.

Settings for gopls

Configure the default Go language server (‘gopls’). In most cases, configuring this section is unnecessary. See the documentation for all available settings.

build.allowImplicitNetworkAccess

(Experimental) allowImplicitNetworkAccess disables GOPROXY=off, allowing implicit module downloads rather than requiring user action. This option will eventually be removed.

Default: false

build.buildFlags

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.

If unspecified, values of go.buildFlags, go.buildTags will be propagated.

build.directoryFilters

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

Default: ["-**/node_modules"]

build.env

env adds environment variables to external commands run by gopls, most notably go list.

build.expandWorkspaceToModule

(Experimental) expandWorkspaceToModule determines which packages are considered “workspace packages” when the workspace is using modules.

Workspace packages affect the scope of workspace-wide operations. Notably, gopls diagnoses all packages considered to be part of the workspace after every keystroke, so by setting “ExpandWorkspaceToModule” to false, and opening a nested workspace directory, you can reduce the amount of work gopls has to do to keep your workspace up to date.

Default: true

build.memoryMode

(Experimental) obsolete, no effect

Default: ""

build.standaloneTags

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.

Default: ["ignore"]

build.templateExtensions

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.)

formatting.gofumpt

gofumpt indicates if we should run gofumpt formatting.

Default: false

formatting.local

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.

Default: ""

ui.codelenses

codelenses overrides the enabled/disabled state of each of gopls' sources of Code Lenses.

Example Usage:

"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.
  }
...
}
PropertiesDescription
gc_details"gc_details": Toggle display of Go compiler optimization decisions
This codelens source causes the package declaration of each file to be annotated with a command to toggle the state of the per-session variable that controls whether optimization decisions from the Go compiler (formerly known as “gc”) should be displayed as diagnostics.
Optimization decisions include: - whether a variable escapes, and how escape is inferred; - whether a nil-pointer check is implied or eliminated; - whether a function can be inlined.
TODO(adonovan): this source is off by default because the annotation is annoying and because VS Code has a separate “Toggle gc details” command. Replace it with a Code Action (“Source action...”).

Default: false
generate"generate": Run go generate
This codelens source annotates any //go:generate comments with commands to run go generate in this directory, on all directories recursively beneath this one.
See Generating code for more details.

Default: true
regenerate_cgo"regenerate_cgo": Re-generate cgo declarations
This codelens source annotates an import "C" declaration with a command to re-run the cgo command to regenerate the corresponding Go declarations.
Use this after editing the C code in comments attached to the import, or in C header files included by it.

Default: true
run_govulncheck"run_govulncheck": Run govulncheck
This codelens source annotates the module directive in a go.mod file with a command to run Govulncheck.
Govulncheck is a static analysis tool that computes the set of functions reachable within your application, including dependencies; queries a database of known security vulnerabilities; and reports any potential problems it finds.

Default: false
test"test": Run tests and benchmarks
This codelens source annotates each Test and Benchmark function in a *_test.go file with a command to run it.
This source is off by default because VS Code has a client-side custom UI for testing, and because progress notifications are not a great UX for streamed test output. See: - golang/go#67400 for a discussion of this feature. - https://github.com/joaotavora/eglot/discussions/1402 for an alternative approach.

Default: false
tidy"tidy": Tidy go.mod file
This codelens source annotates the module directive in a go.mod file with a command to run go mod tidy, which ensures that the go.mod file matches the source code in the module.

Default: true
upgrade_dependency"upgrade_dependency": Update dependencies
This codelens source annotates the module directive in a go.mod file with commands to:
- check for available upgrades, - upgrade direct dependencies, and - upgrade all dependencies transitively.

Default: true
vendor"vendor": Update vendor directory
This codelens source annotates the module directive in a go.mod file with a command to run go mod vendor, which creates or updates the directory named vendor in the module root so that it contains an up-to-date copy of all necessary package dependencies.

Default: true

ui.completion.completeFunctionCalls

completeFunctionCalls enables function call completion.

When completing a statement, or when a function return type matches the expected of the expression being completed, completion may suggest call expressions (i.e. may include parentheses).

Default: true

ui.completion.completionBudget

(For Debugging) 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.

Default: "100ms"

ui.completion.experimentalPostfixCompletions

(Experimental) experimentalPostfixCompletions enables artificial method snippets such as “someSlice.sort!”.

Default: true

ui.completion.matcher

(Advanced) matcher sets the algorithm that is used when calculating completion candidates.
Allowed Options: CaseInsensitive, CaseSensitive, Fuzzy

Default: "Fuzzy"

ui.completion.usePlaceholders

placeholders enables placeholders for function parameters or struct fields in completion responses.

Default: false

ui.diagnostic.analyses

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.

Example Usage:

...
"analyses": {
  "unreachable": false, // Disable the unreachable analyzer.
  "unusedvariable": true  // Enable the unusedvariable analyzer.
}
...
PropertiesDescription
appendscheck for missing values after append
This checker reports calls to append that pass no values to be appended to the slice.
s := []string{“a”, “b”, “c”}
_ = append(s)
Such calls are always no-ops and often indicate an underlying mistake.
Default: true
asmdeclreport mismatches between assembly files and Go declarations
Default: true
assigncheck for useless assignments
This checker reports assignments of the form x = x or a[i] = a[i]. These are almost always useless, and even when they aren't they are usually a mistake.
Default: true
atomiccheck for common mistakes using the sync/atomic package
The atomic checker looks for assignment statements of the form:
x = atomic.AddUint64(&x, 1)
which are not atomic.
Default: true
atomicaligncheck for non-64-bits-aligned arguments to sync/atomic functions
Default: true
boolscheck for common mistakes involving boolean operators
Default: true
buildtagcheck //go:build and // +build directives
Default: true
cgocalldetect some violations of the cgo pointer passing rules
Check for invalid cgo pointer passing. This looks for code that uses cgo to call C code passing values whose types are almost always invalid according to the cgo pointer sharing rules. Specifically, it warns about attempts to pass a Go chan, map, func, or slice to C, either directly, or via a pointer, array, or struct.
Default: true
compositescheck for unkeyed composite literals
This analyzer reports a diagnostic for composite literals of struct types imported from another package that do not use the field-keyed syntax. Such literals are fragile because the addition of a new field (even if unexported) to the struct will cause compilation to fail.
As an example,
err = &net.DNSConfigError{err}
should be replaced by:
err = &net.DNSConfigError{Err: err}

Default: true
copylockscheck for locks erroneously passed by value
Inadvertently copying a value containing a lock, such as sync.Mutex or sync.WaitGroup, may cause both copies to malfunction. Generally such values should be referred to through a pointer.
Default: true
deepequalerrorscheck for calls of reflect.DeepEqual on error values
The deepequalerrors checker looks for calls of the form:
reflect.DeepEqual(err1, err2)
where err1 and err2 are errors. Using reflect.DeepEqual to compare errors is discouraged.
Default: true
defersreport common mistakes in defer statements
The defers analyzer reports a diagnostic when a defer statement would result in a non-deferred call to time.Since, as experience has shown that this is nearly always a mistake.
For example:
start := time.Now()
...
defer recordLatency(time.Since(start)) // error: call to time.Since is not deferred
The correct code is:
defer func() { recordLatency(time.Since(start)) }()
Default: true
deprecatedcheck for use of deprecated identifiers
The deprecated analyzer looks for deprecated symbols and package imports.
See https://go.dev/wiki/Deprecated to learn about Go's convention for documenting and signaling deprecated identifiers.
Default: true
directivecheck Go toolchain directives such as //go:debug
This analyzer checks for problems with known Go toolchain directives in all Go source files in a package directory, even those excluded by //go:build constraints, and all non-Go source files too.
For //go:debug (see https://go.dev/doc/godebug), the analyzer checks that the directives are placed only in Go source files, only above the package comment, and only in package main or *_test.go files.
Support for other known directives may be added in the future.
This analyzer does not check //go:build, which is handled by the buildtag analyzer.

Default: true
embedcheck //go:embed directive usage
This analyzer checks that the embed package is imported if //go:embed directives are present, providing a suggested fix to add the import if it is missing.
This analyzer also checks that //go:embed directives precede the declaration of a single variable.
Default: true
errorsasreport passing non-pointer or non-error values to errors.As
The errorsas analysis reports calls to errors.As where the type of the second argument is not a pointer to a type implementing error.
Default: true
fieldalignmentfind structs that would use less memory if their fields were sorted
This analyzer find structs that can be rearranged to use less memory, and provides a suggested edit with the most compact order.
Note that there are two different diagnostics reported. One checks struct size, and the other reports “pointer bytes” used. Pointer bytes is how many bytes of the object that the garbage collector has to potentially scan for pointers, for example:
struct { uint32; string }
have 16 pointer bytes because the garbage collector has to scan up through the string's inner pointer.
struct { string; *uint32 }
has 24 pointer bytes because it has to scan further through the *uint32.
struct { string; uint32 }
has 8 because it can stop immediately after the string pointer.
Be aware that the most compact order is not always the most efficient. In rare cases it may cause two variables each updated by its own goroutine to occupy the same CPU cache line, inducing a form of memory contention known as “false sharing” that slows down both goroutines.

Default: false
fillreturnssuggest fixes for errors due to an incorrect number of return values
This checker provides suggested fixes for type errors of the type “wrong number of return values (want %d, got %d)”. For example:
func m() (int, string, *bool, error) {
return
}
will turn into
func m() (int, string, *bool, error) {
return 0, "", nil, nil
}
This functionality is similar to https://github.com/sqs/goreturns.
Default: true
framepointerreport assembly that clobbers the frame pointer before saving it
Default: true
httpresponsecheck for mistakes using HTTP responses
A common mistake when using the net/http package is to defer a function call to close the http.Response Body before checking the error that determines whether the response is valid:
resp, err := http.Head(url)
defer resp.Body.Close()
if err != nil {
log.Fatal(err)
}
// (defer statement belongs here)
This checker helps uncover latent nil dereference bugs by reporting a diagnostic for such mistakes.
Default: true
ifaceassertdetect impossible interface-to-interface type assertions
This checker flags type assertions v.(T) and corresponding type-switch cases in which the static type V of v is an interface that cannot possibly implement the target interface T. This occurs when V and T contain methods with the same name but different signatures. Example:
var v interface {
Read()
}
_ = v.(io.Reader)
The Read method in v has a different signature than the Read method in io.Reader, so this assertion cannot succeed.
Default: true
infertypeargscheck for unnecessary type arguments in call expressions
Explicit type arguments may be omitted from call expressions if they can be inferred from function arguments, or from other type arguments:
func fT any {}


func _() {
fstring // string could be inferred
}

Default: true
loopclosurecheck references to loop variables from within nested functions
This analyzer reports places where a function literal references the iteration variable of an enclosing loop, and the loop calls the function in such a way (e.g. with go or defer) that it may outlive the loop iteration and possibly observe the wrong value of the variable.
Note: An iteration variable can only outlive a loop iteration in Go versions <=1.21. In Go 1.22 and later, the loop variable lifetimes changed to create a new iteration variable per loop iteration. (See go.dev/issue/60078.)
In this example, all the deferred functions run after the loop has completed, so all observe the final value of v [<go1.22].
for _, v := range list {
defer func() {
use(v) // incorrect
}()
}
One fix is to create a new variable for each iteration of the loop:
for _, v := range list {
v := v // new var per iteration
defer func() {
use(v) // ok
}()
}
After Go version 1.22, the previous two for loops are equivalent and both are correct.
The next example uses a go statement and has a similar problem [<go1.22]. In addition, it has a data race because the loop updates v concurrent with the goroutines accessing it.
for _, v := range elem {
go func() {
use(v) // incorrect, and a data race
}()
}
A fix is the same as before. The checker also reports problems in goroutines started by golang.org/x/sync/errgroup.Group. A hard-to-spot variant of this form is common in parallel tests:
func Test(t *testing.T) {
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
t.Parallel()
use(test) // incorrect, and a data race
})
}
}
The t.Parallel() call causes the rest of the function to execute concurrent with the loop [<go1.22].
The analyzer reports references only in the last statement, as it is not deep enough to understand the effects of subsequent statements that might render the reference benign. (“Last statement” is defined recursively in compound statements such as if, switch, and select.)
See: https://golang.org/doc/go_faq.html#closures_and_goroutines
Default: true
lostcancelcheck cancel func returned by context.WithCancel is called
The cancellation function returned by context.WithCancel, WithTimeout, and WithDeadline must be called or the new context will remain live until its parent context is cancelled. (The background context is never cancelled.)
Default: true
nilfunccheck for useless comparisons between functions and nil
A useless comparison is one like f == nil as opposed to f() == nil.
Default: true
nilnesscheck for redundant or impossible nil comparisons
The nilness checker inspects the control-flow graph of each function in a package and reports nil pointer dereferences, degenerate nil pointers, and panics with nil values. A degenerate comparison is of the form x==nil or x!=nil where x is statically known to be nil or non-nil. These are often a mistake, especially in control flow related to errors. Panics with nil values are checked because they are not detectable by
if r := recover(); r != nil {
This check reports conditions such as:
if f == nil { // impossible condition (f is a function)
}
and:
p := &v
...
if p != nil { // tautological condition
}
and:
if p == nil {
print(*p) // nil dereference
}
and:
if p == nil {
panic(p)
}
Sometimes the control flow may be quite complex, making bugs hard to spot. In the example below, the err.Error expression is guaranteed to panic because, after the first return, err must be nil. The intervening loop is just a distraction.
...
err := g.Wait()
if err != nil {
return err
}
partialSuccess := false
for _, err := range errs {
if err == nil {
partialSuccess = true
break
}
}
if partialSuccess {
reportStatus(StatusMessage{
Code: code.ERROR,
Detail: err.Error(), // “nil dereference in dynamic method call”
})
return nil
}
...
Default: true
nonewvarssuggested fixes for “no new vars on left side of :=”
This checker provides suggested fixes for type errors of the type “no new vars on left side of :=”. For example:
z := 1
z := 2
will turn into
z := 1
z = 2
Default: true
noresultvaluessuggested fixes for unexpected return values
This checker provides suggested fixes for type errors of the type “no result values expected” or “too many return values”. For example:
func z() { return nil }
will turn into
func z() { return }
Default: true
printfcheck consistency of Printf format strings and arguments
The check applies to calls of the formatting functions such as [fmt.Printf] and [fmt.Sprintf], as well as any detected wrappers of those functions such as [log.Printf]. It reports a variety of mistakes such as syntax errors in the format string and mismatches (of number and type) between the verbs and their arguments.
See the documentation of the fmt package for the complete set of format operators and their operand types.
Default: true
shadowcheck for possible unintended shadowing of variables
This analyzer check for shadowed variables. A shadowed variable is a variable declared in an inner scope with the same name and type as a variable in an outer scope, and where the outer variable is mentioned after the inner one is declared.
(This definition can be refined; the module generates too many false positives and is not yet enabled by default.)
For example:
func BadRead(f *os.File, buf []byte) error {
var err error
for {
n, err := f.Read(buf) // shadows the function variable ‘err’
if err != nil {
break // causes return of wrong value
}
foo(buf)
}
return err
}
Default: false
shiftcheck for shifts that equal or exceed the width of the integer
Default: true
sigchanyzercheck for unbuffered channel of os.Signal
This checker reports call expression of the form
signal.Notify(c <-chan os.Signal, sig ...os.Signal),
where c is an unbuffered channel, which can be at risk of missing the signal.
Default: true
simplifycompositelitcheck for composite literal simplifications
An array, slice, or map composite literal of the form:
[]T{T{}, T{}}
will be simplified to:
[]T{{}, {}}
This is one of the simplifications that “gofmt -s” applies.
Default: true
simplifyrangecheck for range statement simplifications
A range of the form:
for x, _ = range v {...}
will be simplified to:
for x = range v {...}
A range of the form:
for _ = range v {...}
will be simplified to:
for range v {...}
This is one of the simplifications that “gofmt -s” applies.
Default: true
simplifyslicecheck for slice simplifications
A slice expression of the form:
s[a:len(s)]
will be simplified to:
s[a:]
This is one of the simplifications that “gofmt -s” applies.
Default: true
slogcheck for invalid structured logging calls
The slog checker looks for calls to functions from the log/slog package that take alternating key-value pairs. It reports calls where an argument in a key position is neither a string nor a slog.Attr, and where a final key is missing its value. For example,it would report
slog.Warn(“message”, 11, “k”) // slog.Warn arg “11” should be a string or a slog.Attr
and
slog.Info(“message”, “k1”, v1, “k2”) // call to slog.Info missing a final value
Default: true
sortslicecheck the argument type of sort.Slice
sort.Slice requires an argument of a slice type. Check that the interface{} value passed to sort.Slice is actually a slice.
Default: true
stdmethodscheck signature of methods of well-known interfaces
Sometimes a type may be intended to satisfy an interface but may fail to do so because of a mistake in its method signature. For example, the result of this WriteTo method should be (int64, error), not error, to satisfy io.WriterTo:
type myWriterTo struct{...}
func (myWriterTo) WriteTo(w io.Writer) error { ... }
This check ensures that each method whose name matches one of several well-known interface methods from the standard library has the correct signature for that interface.
Checked method names include:
Format GobEncode GobDecode MarshalJSON MarshalXML
Peek ReadByte ReadFrom ReadRune Scan Seek
UnmarshalJSON UnreadByte UnreadRune WriteByte
WriteTo
Default: true
stdversionreport uses of too-new standard library symbols
The stdversion analyzer reports references to symbols in the standard library that were introduced by a Go release higher than the one in force in the referring file. (Recall that the file‘s Go version is defined by the ‘go’ directive its module’s go.mod file, or by a “//go:build go1.X” build tag at the top of the file.)
The analyzer does not report a diagnostic for a reference to a “too new” field or method of a type that is itself “too new”, as this may have false positives, for example if fields or methods are accessed through a type alias that is guarded by a Go version constraint.

Default: true
stringintconvcheck for string(int) conversions
This checker flags conversions of the form string(x) where x is an integer (but not byte or rune) type. Such conversions are discouraged because they return the UTF-8 representation of the Unicode code point x, and not a decimal string representation of x as one might expect. Furthermore, if x denotes an invalid code point, the conversion cannot be statically rejected.
For conversions that intend on using the code point, consider replacing them with string(rune(x)). Otherwise, strconv.Itoa and its equivalents return the string representation of the value in the desired base.
Default: true
structtagcheck that struct field tags conform to reflect.StructTag.Get
Also report certain struct tags (json, xml) used with unexported fields.
Default: true
stubmethodsdetect missing methods and fix with stub implementations
This analyzer detects type-checking errors due to missing methods in assignments from concrete types to interface types, and offers a suggested fix that will create a set of stub methods so that the concrete type satisfies the interface.
For example, this function will not compile because the value NegativeErr{} does not implement the “error” interface:
func sqrt(x float64) (float64, error) {
if x < 0 {
return 0, NegativeErr{} // error: missing method
}
...
}
type NegativeErr struct{}
This analyzer will suggest a fix to declare this method:
// Error implements error.Error.
func (NegativeErr) Error() string {
panic(“unimplemented”)
}
(At least, it appears to behave that way, but technically it doesn‘t use the SuggestedFix mechanism and the stub is created by logic in gopls’s golang.stub function.)
Default: true
testinggoroutinereport calls to (*testing.T).Fatal from goroutines started by a test
Functions that abruptly terminate a test, such as the Fatal, Fatalf, FailNow, and Skip{,f,Now} methods of *testing.T, must be called from the test goroutine itself. This checker detects calls to these functions that occur within a goroutine started by the test. For example:
func TestFoo(t *testing.T) {
go func() {
t.Fatal(“oops”) // error: (*T).Fatal called from non-test goroutine
}()
}
Default: true
testscheck for common mistaken usages of tests and examples
The tests checker walks Test, Benchmark, Fuzzing and Example functions checking malformed names, wrong signatures and examples documenting non-existent identifiers.
Please see the documentation for package testing in golang.org/pkg/testing for the conventions that are enforced for Tests, Benchmarks, and Examples.
Default: true
timeformatcheck for calls of (time.Time).Format or time.Parse with 2006-02-01
The timeformat checker looks for time formats with the 2006-02-01 (yyyy-dd-mm) format. Internationally, “yyyy-dd-mm” does not occur in common calendar date standards, and so it is more likely that 2006-01-02 (yyyy-mm-dd) was intended.
Default: true
undeclarednamesuggested fixes for “undeclared name: <>”
This checker provides suggested fixes for type errors of the type “undeclared name: <>”. It will either insert a new statement, such as:
<> :=
or a new function declaration, such as:
func <>(inferred parameters) {
panic(“implement me!”)
}
Default: true
unmarshalreport passing non-pointer or non-interface values to unmarshal
The unmarshal analysis reports calls to functions such as json.Unmarshal in which the argument type is not a pointer or an interface.
Default: true
unreachablecheck for unreachable code
The unreachable analyzer finds statements that execution can never reach because they are preceded by an return statement, a call to panic, an infinite loop, or similar constructs.
Default: true
unsafeptrcheck for invalid conversions of uintptr to unsafe.Pointer
The unsafeptr analyzer reports likely incorrect uses of unsafe.Pointer to convert integers to pointers. A conversion from uintptr to unsafe.Pointer is invalid if it implies that there is a uintptr-typed word in memory that holds a pointer value, because that word will be invisible to stack copying and to the garbage collector.
Default: true
unusedparamscheck for unused parameters of functions
The unusedparams analyzer checks functions to see if there are any parameters that are not being used.
To ensure soundness, it ignores: - “address-taken” functions, that is, functions that are used as a value rather than being called directly; their signatures may be required to conform to a func type. - exported functions or methods, since they may be address-taken in another package. - unexported methods whose name matches an interface method declared in the same package, since the method's signature may be required to conform to the interface type. - functions with empty bodies, or containing just a call to panic. - parameters that are unnamed, or named “_”, the blank identifier.
The analyzer suggests a fix of replacing the parameter name by “_”, but in such cases a deeper fix can be obtained by invoking the “Refactor: remove unused parameter” code action, which will eliminate the parameter entirely, along with all corresponding arguments at call sites, while taking care to preserve any side effects in the argument expressions; see https://github.com/golang/tools/releases/tag/gopls%2Fv0.14.
Default: true
unusedresultcheck for unused results of calls to some functions
Some functions like fmt.Errorf return a result and have no side effects, so it is always a mistake to discard the result. Other functions may return an error that must not be ignored, or a cleanup operation that must be called. This analyzer reports calls to functions like these when the result of the call is ignored.
The set of functions may be controlled using flags.
Default: true
unusedvariablecheck for unused variables and suggest fixes
Default: false
unusedwritechecks for unused writes
The analyzer reports instances of writes to struct fields and arrays that are never read. Specifically, when a struct object or an array is copied, its elements are copied implicitly by the compiler, and any element write to this copy does nothing with the original object.
For example:
type T struct { x int }
func f(input []T) {
for i, v := range input { // v is a copy
v.x = i // unused write to field x
}
}
Another example is about non-pointer receiver:
type T struct { x int }
func (t T) f() { // t is a copy
t.x = i // unused write to field x
}
Default: true
useanycheck for constraints that could be simplified to “any”
Default: false

ui.diagnostic.analysisProgressReporting

analysisProgressReporting controls whether gopls sends progress notifications when construction of its index of analysis facts is taking a long time. Cancelling these notifications will cancel the indexing task, though it will restart after the next change in the workspace.

When a package is opened for the first time and heavyweight analyses such as staticcheck are enabled, it can take a while to construct the index of analysis facts for all its dependencies. The index is cached in the filesystem, so subsequent analysis should be faster.

Default: true

ui.diagnostic.annotations

(Experimental) annotations specifies the various kinds of optimization diagnostics that should be reported by the gc_details command.

PropertiesDescription
bounds"bounds" controls bounds checking diagnostics.

Default: true
escape"escape" controls diagnostics about escape choices.

Default: true
inline"inline" controls diagnostics about inlining choices.

Default: true
nil"nil" controls nil checks.

Default: true

ui.diagnostic.diagnosticsDelay

(Advanced) 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".

Default: "1s"

ui.diagnostic.diagnosticsTrigger

(Experimental) diagnosticsTrigger controls when to run diagnostics.
Allowed Options:

  • Edit: "Edit": Trigger diagnostics on file edit and save. (default)
  • Save: "Save": Trigger diagnostics only on file save. Events like initial workspace load or configuration change will still trigger diagnostics.

Default: "Edit"

ui.diagnostic.staticcheck

(Experimental) staticcheck enables additional analyses from staticcheck.io. These analyses are documented on Staticcheck's website.

Default: false

ui.documentation.hoverKind

hoverKind controls the information that appears in the hover text. SingleLine and Structured are intended for use only by authors of editor plugins.
Allowed Options:

  • FullDocumentation
  • NoDocumentation
  • SingleLine
  • Structured: "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.
  • SynopsisDocumentation

Default: "FullDocumentation"

ui.documentation.linkTarget

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.

Default: "pkg.go.dev"

ui.documentation.linksInHover

linksInHover controls the presence of documentation links in hover markdown.

Its legal values are:

  • false, for no links;
  • true, for links to the linkTarget domain; or
  • "gopls", for links to gopls' internal documentation viewer.

Default: true

ui.navigation.importShortcut

importShortcut specifies whether import statements should link to documentation or go to definitions.
Allowed Options: Both, Definition, Link

Default: "Both"

ui.navigation.symbolMatcher

(Advanced) symbolMatcher sets the algorithm that is used when finding workspace symbols.
Allowed Options: CaseInsensitive, CaseSensitive, FastFuzzy, Fuzzy

Default: "FastFuzzy"

ui.navigation.symbolScope

symbolScope controls which packages are searched for workspace/symbol requests. When the scope is “workspace”, gopls searches only workspace packages. When the scope is “all”, gopls searches all loaded packages, including dependencies and the standard library.
Allowed Options:

  • all: "all" matches symbols in any loaded package, including dependencies.
  • workspace: "workspace" matches symbols in workspace packages only.

Default: "all"

ui.navigation.symbolStyle

(Advanced) symbolStyle controls how symbols are qualified in symbol responses.

Example Usage:

"gopls": {
...
  "symbolStyle": "Dynamic",
...
}
  • Dynamic: "Dynamic" 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”.
  • Full: "Full" is fully qualified symbols, i.e. “path/to/pkg.Foo.Field”.
  • Package: "Package" is package qualified symbols i.e. “pkg.Foo.Field”.

Default: "Dynamic"

ui.noSemanticNumber

(Experimental) noSemanticNumber turns off the sending of the semantic token ‘number’

Default: false

ui.noSemanticString

(Experimental) noSemanticString turns off the sending of the semantic token ‘string’

Default: false

ui.semanticTokens

(Experimental) semanticTokens controls whether the LSP server will send semantic tokens to the client.

Default: false

verboseOutput

(For Debugging) verboseOutput enables additional debug logging.

Default: false