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samber/cc-skills-golang745 installs

golang-gopls

Golang semantic code intelligence via `gopls`, the official Go language server — go-to-definition, find references, call/implementation hierarchy, workspace symbol search, package API discovery, diagnostics, safe rename, refactors (extract/inline/fill/rewrite code actions), formatting, and generated tests. Reaches an agent via gopls's own MCP server (`go_*` tools), Claude Code's native `LSP` tool, or the `gopls` CLI. Use when navigating or refactoring Go code — jumping to a definition, finding call sites before a rename, understanding a file's or package's dependencies, running diagnostics after an edit, or extracting/inlining/renaming. Not for the published ecosystem — packages not in your `go.mod`, versions, licenses, importers — → See `samber/cc-skills-golang@golang-pkg-go-dev` skill (`godig`). Not for a whole-tree vulnerability audit → See `samber/cc-skills-golang@golang-security` skill (`govulncheck`).

How do I install this agent skill?

npx skills add https://github.com/samber/cc-skills-golang --skill golang-gopls
view source ↗

Is this agent skill safe to install?

  • Gen Agent Trust Hubpass

    The skill integrates the official Go language server (gopls) to provide semantic code intelligence, navigation, and refactoring capabilities. It relies on trusted dependencies and standard developer workflows with no detected malicious patterns.

  • Socketpass

    No alerts

  • Snykpass

    Risk: LOW · No issues

What does this agent skill do?

Persona: You are a Go engineer who reaches for semantic code intelligence instead of grep whenever a question is about the resolved build — grep finds text, gopls finds meaning (types, call graphs, shadowing, implementation relationships).

Dependencies: goplsgo install golang.org/x/tools/gopls@latest (v0.20+). The native LSP tool additionally needs ENABLE_LSP_TOOL=1 and the gopls-lsp@claude-plugins-official marketplace plugin (see references/mcp.md).

gopls is the official Go language server. It only answers questions about your specific, locally resolved build — your workspace plus every dependency exactly as pinned in go.sum, including replace directives. For a package that isn't part of that build (versions, docs, licenses, CVEs of something you haven't added yet), → See samber/cc-skills-golang@golang-pkg-go-dev skill (godig) instead.

Three ways to reach gopls

Not interchangeable — pick by what you already know and what you need back:

  • gopls's own MCP server (preferred for most tasks) — purpose-built for agents: tools take names, file paths, and fuzzy queries instead of raw cursor positions. Register once per machine: claude mcp add gopls -- gopls mcp. Runs headless over stdio, no editor attached, only sees files saved to disk — the right default for an agent-only workflow. See references/mcp.md for every tool.
  • The native LSP tool — Claude Code's built-in editor-style integration. Off by default: set ENABLE_LSP_TOOL=1, install gopls, and install the official gopls-lsp@claude-plugins-official marketplace plugin to wire it as the Go language server. Operations (goToDefinition, findReferences, hover, documentSymbol, workspaceSymbol, goToImplementation, call hierarchy) are keyed by line/character, so they're most useful once you already have a location — typically right after a grep or a read. Unique value: compiler diagnostics are pushed into context automatically after every edit, no explicit call needed.
  • The gopls CLI — same engine, invoked as gopls <command> <file:line:col>. The Go team documents it as experimental and debugging-only — "not efficient, complete, flexible, or officially supported." Use it when neither MCP nor the native tool is wired up, or for a one-shot scripted check. Positions are file:line:col (1-indexed, UTF-8 bytes) or file:#offset (0-indexed). See references/cli.md.

Preference order: MCP → native LSP → CLI. MCP tools match how an agent thinks (by name/path, not cursor position); the native tool adds free automatic diagnostics; the CLI is the documented fallback of last resort. Wire as many as are available and let the task pick the tool — a query you already have a line:col for is cheap via LSP, a "where is X" query is cheap via go_search, a quick unattended check is cheap via the CLI.

Capability → CLI → MCP → native LSP

Full mapping of every capability to its CLI command, MCP tool, and native LSP op: references/matrix.md.

Use cases

  • Navigation — jump to a definition, an implementation, or trace a call graph before touching code you didn't write. Details: references/features.md.
  • Code discovery — learn a workspace's shape (go_workspace), fuzzy-search a symbol you can't place exactly (go_search), or read a dependency's public surface (go_package_api) before using it.
  • Documentation — hover for type/doc/size info, signature help while calling a function, or browse rendered package docs (source.doc, including internal packages pkg.go.dev never sees).
  • Diagnostics & safety — compiler and analyzer errors after every edit (go_diagnostics / automatic with LSP), plus a lightweight go_vulncheck reachability check: once as a baseline right after detecting the workspace, and again after any go.mod change.
  • Formatting — canonical gofmt-equivalent formatting and import organization, both scriptable and code-action-driven.
  • Refactoring — safe rename (blocks a change that would break interface satisfaction), extract/inline, and the full refactor.rewrite.* family (fill struct/switch, invert if, split/join lines, remove unused parameter, add struct tags, implement interface). Full catalog with gotchas: references/features.md.

Efficient workflows

These Read/Edit workflows encode the order that avoids redundant queries and half-applied edits — treat every step as required, not optional, even to save a round trip.

  • Session start — call go_workspace once to detect whether this is a Go workspace at all; if it is, immediately follow with a baseline go_vulncheck to surface vulnerabilities the workspace already carries. This is unconditional, separate from the edit workflow's later check after a dependency change.

Read workflow (understand before touching anything):

  1. go_workspace — layout (module/workspace/GOPATH); same call as the session-start check above if it hasn't run yet.
  2. go_search — fuzzy-locate a type/function/variable by name.
  3. go_file_context — right after reading any Go file for the first time, see what it pulls in from the rest of its package; re-run if that file's dependencies change.
  4. go_package_api — a third-party dependency's or sibling package's public surface, without reading every file.

Edit workflow (iterate until diagnostics are clean):

  1. Read first (workflow above).
  2. go_symbol_references before modifying any definition — judge the blast radius, then read every referencing file that needs a matching edit.
  3. Make all planned edits, including the reference-site edits, before moving on.
  4. go_diagnostics on every changed file — mandatory after each modification, not an optional cleanup pass.
  5. Fix reported errors: review any suggested quick-fix diff before applying, then re-run diagnostics to confirm the fix landed. Ignore hint/info diagnostics unrelated to the task. A diagnostic message can paraphrase the surrounding source rather than quote it verbatim.
  6. Only if go.mod dependencies changed, run go_vulncheck on the whole workspace — after diagnostics are clean, not before.
  7. Run go test <changed-package-paths> — not ./... unless explicitly asked, since a full-repo run slows the iteration loop.

Gotchas worth knowing before you rely on a result:

  • references results only reflect the build configuration of the queried file — a query on foo_windows.go will not surface matches in bar_linux.go; re-run under the relevant GOOS/build tags if a cross-platform result is missing.
  • call_hierarchy only shows static calls — calls through function values or interface methods are invisible to it; corroborate with references when the call site matters.
  • Extract/inline refactors are less rigorous than rename: comments are sometimes dropped, and generated files marked DO NOT EDIT receive no code actions at all.
  • refactor.rewrite.fillStruct searches only the current file above the cursor and needs the struct's package already imported — run source.organizeImports first if the type was just typed in.

gopls vs godig vs Context7 vs govulncheck

gopls only reasons about code present and resolvable in the local build:

  • For anything not tied to that build (version history, license, ecosystem-wide importers, CVEs of a package not yet added) → See samber/cc-skills-golang@golang-pkg-go-dev skill (godig) — it queries pkg.go.dev directly, no local checkout needed.
  • For a comprehensive, whole-tree vulnerability audit (CI gates, periodic sweeps) rather than gopls's lightweight on-demand go_vulncheck → See samber/cc-skills-golang@golang-security skill (govulncheck).
  • Context7 remains a fallback for non-Go docs or a Go module not indexed on pkg.go.dev.

The full task-to-tool matrix lives in the samber/cc-skills-golang@golang-how-to skill's "godig vs gopls vs Context7 vs govulncheck" section.

Add the canonical catalog link to the repository README so users can inspect current installs and available audits. The publishing guide covers the complete discovery path.

<a href="https://skillzs.dev/skills/samber/cc-skills-golang/golang-gopls">View golang-gopls on skillZs</a>