Rodin
0f1d7e4c06
9 pattern files covering stdlib (structs, interfaces, API conventions, docs, style), Kubernetes (controller/reconciler, informer/cache, leader election, code generation), comparison (stdlib vs K8s approaches), and anti-patterns. All patterns cite exact source files and line numbers.
11 KiB
Documentation Patterns in the Go Standard Library
1. Package Documentation (doc.go or Package Comment)
Pattern name: Package Doc Comment
Source citation: net/http/doc.go lines 6–30, os/file.go lines 5–43, log/slog/doc.go lines 6–30
What it does: The first file in a package (by convention doc.go, or the main
source file) starts with a // Package xxx ... comment that explains the package's
purpose, key types, and typical usage patterns.
Why: This is the first thing users see in go doc <pkg> and on pkg.go.dev. It
sets context, teaches the mental model, and provides copy-paste examples.
Anti-pattern: No package comment; package comment that just restates the package name ("Package http provides http"); putting documentation in README instead of code.
Code examples from source:
// net/http/doc.go:6-12
/*
Package http provides HTTP client and server implementations.
[Get], [Head], [Post], and [PostForm] make HTTP (or HTTPS) requests:
resp, err := http.Get("http://example.com/")
...
*/
// os/file.go:5-43
// Package os provides a platform-independent interface to operating system
// functionality. The design is Unix-like, although the error handling is
// Go-like; failing calls return values of type error rather than error numbers.
// Often, more information is available within the error. For example,
// if a call that takes a file name fails, such as [Open] or [Stat], the error
// will include the failing file name when printed and will be of type
// [*PathError], which may be unpacked for more information.
// log/slog/doc.go:6-10
/*
Package slog provides structured logging,
in which log records include a message,
a severity level, and various other attributes
expressed as key-value pairs.
*/
2. Section Headers in Package Docs
Pattern name: # Heading in Doc Comments
Source citation: os/file.go lines 37–43, net/http/doc.go (multiple sections)
What it does: Uses # Section Name within the package doc comment to organize
long documentation into navigable sections.
Why: Large packages need structure. Section headers render as links in pkg.go.dev and provide a scannable table of contents.
Anti-pattern: Wall-of-text package docs; using === or --- (not recognized);
too many sections (fragmenting simple docs).
Code example from source:
// os/file.go:37
// # Concurrency
//
// The methods of [File] correspond to file system operations. All are
// safe for concurrent use.
3. Type/Function Comment Convention
Pattern name: // TypeName verb... or // FuncName verb...
Source citation: net/http/server.go lines 64–82 (Handler), bufio/scan.go lines 14–27 (Scanner)
What it does: Every exported identifier's doc comment starts with the identifier name, followed by a verb phrase describing what it does or represents.
Why: go doc extracts the first sentence as a summary. Starting with the name
ensures it reads correctly in both isolation (summary lists) and full context.
This is enforced by convention and checked by linters.
Anti-pattern: Starting with "This function..." or "The Foo type..."; starting with articles ("A Handler is...") for functions (acceptable for types); omitting the comment entirely.
Code examples from source:
// net/http/server.go:64
// A Handler responds to an HTTP request.
// bufio/scan.go:14-17
// Scanner provides a convenient interface for reading data such as
// a file of newline-delimited lines of text.
// net/http/request.go:867
// NewRequest wraps NewRequestWithContext using context.Background.
// os/file.go:389-390
// Open opens the named file for reading.
// regexp/regexp.go:310-312
// MustCompile is like [Compile] but panics if the expression cannot be parsed.
// It simplifies safe initialization of global variables holding compiled regular
// expressions.
4. Doc Links (Square Bracket References)
Pattern name: [TypeName], [Package.Symbol], [Method] Links
Source citation: net/http/server.go lines 65–70, os/file.go line 9
What it does: Doc comments use [SymbolName] to create hyperlinks to other
identifiers. These render as clickable links on pkg.go.dev.
Why: Cross-references help users navigate the API. Links are concise and don't clutter the plain-text rendering.
Anti-pattern: Using full URLs to godoc pages; not linking related types; over-linking (every mention of every type).
Code examples from source:
// net/http/server.go:65-70
// [Handler.ServeHTTP] should write reply headers and data to the [ResponseWriter]
// and then return. Returning signals that the request is finished; it
// is not valid to use the [ResponseWriter] or read from the
// [Request.Body] after or concurrently with the completion of the
// ServeHTTP call.
// os/file.go:9-11
// if a call that takes a file name fails, such as [Open] or [Stat], the error
// will include the failing file name when printed and will be of type
// [*PathError], which may be unpacked for more information.
5. Example Test Functions
Pattern name: func ExampleXxx() / func ExampleType_Method()
Source citation: regexp/example_test.go lines 13–28, net/http/example_handle_test.go lines 16–31
What it does: Functions named Example, ExampleXxx, or ExampleType_Method
in _test.go files serve as both executable tests and documentation. They include
an // Output: comment that go test verifies.
Why: Examples that compile, run, and are verified can never go stale. They appear
in go doc and pkg.go.dev alongside the relevant symbol. They teach by showing
real, working code.
Anti-pattern: Examples that don't compile; examples without Output comments (not verified); examples in README that drift from reality.
Code examples from source:
// regexp/example_test.go:13-28
func Example() {
// Compile the expression once, usually at init time.
// Use raw strings to avoid having to quote the backslashes.
var validID = regexp.MustCompile(`^[a-z]+\[[0-9]+\]$`)
fmt.Println(validID.MatchString("adam[23]"))
fmt.Println(validID.MatchString("eve[7]"))
fmt.Println(validID.MatchString("Job[48]"))
fmt.Println(validID.MatchString("snakey"))
// Output:
// true
// true
// false
// false
}
// net/http/example_handle_test.go:16-31
type countHandler struct {
mu sync.Mutex // guards n
n int
}
func (h *countHandler) ServeHTTP(w http.ResponseWriter, r *http.Request) {
h.mu.Lock()
defer h.mu.Unlock()
h.n++
fmt.Fprintf(w, "count is %d\n", h.n)
}
func ExampleHandle() {
http.Handle("/count", new(countHandler))
log.Fatal(http.ListenAndServe(":8080", nil))
}
6. Inline Code Examples in Doc Comments
Pattern name: Indented Code Blocks in Comments
Source citation: os/file.go lines 17–35, time/time.go lines 928–933
What it does: Doc comments include indented code snippets (4 spaces) that render as preformatted code blocks in godoc.
Why: Shows typical usage patterns directly in the doc comment without requiring a separate Example test function. Good for short, illustrative snippets.
Anti-pattern: Non-indented code that doesn't render as code; examples too long for inline (use Example functions instead); examples that reference unexported symbols.
Code examples from source:
// os/file.go:17-21
// Here is a simple example, opening a file and reading some of it.
//
// file, err := os.Open("file.go") // For read access.
// if err != nil {
// log.Fatal(err)
// }
// time/time.go:928-933
// To count the number of units in a [Duration], divide:
//
// second := time.Second
// fmt.Print(int64(second/time.Millisecond)) // prints 1000
//
// To convert an integer number of units to a Duration, multiply:
//
// seconds := 10
// fmt.Print(time.Duration(seconds)*time.Second) // prints 10s
7. Deprecated Annotations
Pattern name: // Deprecated: ... in Doc Comments
Source citation: net/http/server.go line 57 (ErrWriteAfterFlush), os/file.go lines 93–95
What it does: A paragraph starting with Deprecated: marks an identifier as
deprecated and explains what to use instead.
Why: Recognized by tooling (go vet, staticcheck, IDEs). Provides a migration path without breaking backward compatibility.
Anti-pattern: Removing deprecated APIs (breaks semver); deprecating without suggesting an alternative; using non-standard deprecation markers.
Code example from source:
// net/http/server.go:55-57
// Deprecated: ErrWriteAfterFlush is no longer returned by
// anything in the net/http package. Callers should not
// compare errors against this variable.
ErrWriteAfterFlush = errors.New("unused")
8. Error Documentation Convention
Pattern name: "If there is an error, it will be of type [*XxxError]"
Source citation: os/file.go lines 388, 406
What it does: Functions document the concrete error type they return, enabling callers to type-assert for additional context.
Why: Go's error handling relies on type assertions and errors.Is/As. Knowing
the concrete type lets callers extract structured information (path, operation,
underlying cause).
Anti-pattern: Returning opaque errors with no documented structure; returning different error types from the same function without documenting which.
Code example from source:
// os/file.go:388-390
// Open opens the named file for reading. If successful, methods on
// the returned file can be used for reading; the associated file
// descriptor has mode [O_RDONLY].
// If there is an error, it will be of type [*PathError].
func Open(name string) (*File, error) {
9. Concurrency Documentation
Pattern name: "Safe for concurrent use" / Concurrency Guarantees
Source citation: net/http/transport.go lines 79–80, os/types.go line 17, regexp/regexp.go lines 77–79
What it does: Doc comments explicitly state the concurrency safety of a type or note exceptions where concurrent use is not safe.
Why: Go programs are inherently concurrent. Without explicit documentation, users must guess whether a type needs external synchronization.
Anti-pattern: Leaving concurrency safety undocumented; documenting it inconsistently across methods; saying "thread-safe" (Java-ism, use "safe for concurrent use by multiple goroutines").
Code examples from source:
// net/http/transport.go:79-80
// Transports should be reused instead of created as needed.
// Transports are safe for concurrent use by multiple goroutines.
// os/types.go:17
// The methods of File are safe for concurrent use.
// regexp/regexp.go:77-79
// A Regexp is safe for concurrent use by multiple goroutines,
// except for configuration methods, such as [Regexp.Longest].