| name | golang |
| description | Go coding standards and conventions for this project. Apply when writing, reviewing, or refactoring any Go source file.
|
| triggers | ["on_commit"] |
Go Development Instructions
Follow idiomatic Go practices and community standards when writing Go code.
These instructions are based on Effective Go,
Go Code Review Comments,
and Google's Go Style Guide.
General Instructions
- Write simple, clear, and idiomatic Go code
- Favor clarity and simplicity over cleverness
- Follow the principle of least surprise
- Keep the happy path left-aligned (reduce indentation)
- Return early to reduce nesting
- Make the zero value useful
- Document exported types, functions, methods, and packages
- Use Go modules for dependency management
- AVOID
else statements - use early returns, continue, or break instead
- Avoid wrapping primitives without a clear semantic benefit; define new types when they add meaning.
- Use typed slices/maps and document element semantics when not obvious.
- Start error strings with a lowercase letter.
Naming Conventions
Packages
- Use lowercase, single-word package names
- Avoid
_ characters, hyphens, or mixedCaps
- Choose names that describe what the package provides, not what it contains
- Avoid generic names like
util, common, or base
- Package names should be singular, not plural
Variables and Functions
- Use mixedCaps or MixedCaps (camelCase) rather than
_ characters
- Keep names short but descriptive
- Use single-letter variables for very short scopes (like loop indices)
- Exported names start with a capital letter
- Unexported names start with a lowercase letter
- Avoid stuttering (e.g., avoid
http.HTTPServer, prefer http.Server)
Interfaces
- Name interfaces with -er suffix when possible (e.g.,
Reader, Writer, Formatter)
- Single-method interfaces should be named after the method (e.g.,
Read → Reader)
- Keep interfaces small and focused
Constants
- Use MixedCaps for exported constants
- Use mixedCaps for unexported constants
- Group related constants using
const blocks
- Consider using typed constants for better type safety
Code Style and Formatting
Formatting
- Always use
gofmt to format code
- Use
goimports to manage imports automatically
- Keep line to 180 max at all times
- Add blank lines to separate logical groups of code
Comments
- Write comments in complete sentences
- Start sentences with the name of the thing being described
- Package comments should start with "Package [name]"
- Use line comments (
//) for most comments
- Use block comments (
/* */) sparingly, mainly for package documentation
- Document why, not what, unless the what is complex
Error Handling
- Check errors immediately after the function call
- Don't ignore errors using
_ unless you have a good reason (document why)
- Wrap errors with context using
fmt.Errorf with %w verb
- Create custom error types when you need to check for specific errors
- Place error returns as the last return value
- Name error variables
err
- Keep error messages lowercase and don't end with punctuation
Logging
- Always use the codebase
log package for logging
- Log errors at the point they occur using
log.Error(err)
- Do not format the errors, let the
log package handle it
- For complex function calls, use
defer log.Trace(time.Now(), args)
where args are the function arguments at the start of the function.
Control Flow
- NEVER use
else statements - they create unnecessary nesting and reduce readability
- Use early returns to handle error cases and edge conditions first
- Use
continue in loops to skip to the next iteration instead of nesting
- Use
break to exit loops early instead of complex conditional logic
- Keep the main logic (happy path) left-aligned with minimal indentation
❌ BAD - Don't do this:
func processEntry(entry *Entry) string {
if entry.Expired() {
return "expired"
} else {
if entry.TTL < 0 {
return "never expires"
} else {
return fmt.Sprintf("expires at %s", time.Unix(entry.Timestamp, 0))
}
}
}
✅ GOOD - Do this instead:
func processEntry(entry *Entry) string {
if entry.Expired() {
return "expired"
}
if entry.TTL < 0 {
return "never expires"
}
return fmt.Sprintf("expires at %s", time.Unix(entry.Timestamp, 0))
}
❌ BAD - Nested loop logic:
for _, item := range items {
if item.IsValid() {
if item.ShouldProcess() {
}
}
}
✅ GOOD - Early continue:
for _, item := range items {
if !item.IsValid() {
continue
}
if !item.ShouldProcess() {
continue
}
}
Architecture and Project Structure
Package Organization
- Follow standard Go project layout conventions
- Group related functionality into packages
- Avoid circular dependencies
Dependency Management
- Use Go modules (
go.mod and go.sum)
- Keep dependencies minimal
- Regularly update dependencies for security patches
- Use
go mod tidy to clean up unused dependencies
- Vendor dependencies when necessary
Type Safety and Language Features
Type Definitions
- Define types to add meaning and type safety
- Use struct tags for JSON, YAML and TOML on exported fields
- Prefer explicit type conversions
- Use type assertions carefully and check the second return value
Pointers vs Values
- Use pointers for large structs or when you need to modify the receiver
- Use values for small structs and when immutability is desired
- Be consistent within a type's method set
- Consider the zero value when choosing pointer vs value receivers
Interfaces and Composition
- Accept interfaces, return concrete types
- Keep interfaces small (1-3 methods is ideal)
- Use embedding for composition
- Define interfaces close to where they're used, not where they're implemented
- Don't export interfaces unless necessary
Concurrency
Goroutines
- Don't create goroutines in libraries; let the caller control concurrency
- Always know how a goroutine will exit
- Use
sync.WaitGroup or channels to wait for goroutines
- Avoid goroutine leaks by ensuring cleanup
Channels
- Use channels to communicate between goroutines
- Don't communicate by sharing memory; share memory by communicating
- Close channels from the sender side, not the receiver
- Use buffered channels when you know the capacity
- Use
select for non-blocking operations
Synchronization
- Use
sync.Mutex for protecting shared state
- Keep critical sections small
- Use
sync.RWMutex when you have many readers
- Prefer channels over mutexes when possible
- Use
sync.Once for one-time initialization
Error Handling Patterns
Creating Errors
- Use
errors.New for simple static errors
- Use
fmt.Errorf for errors with runtime values
- Create custom error types for domain-specific errors
- Export error variables for sentinel errors
- Use
errors.Is and errors.As for error checking
Error Propagation
- Add context when propagating errors up the stack
- Don't log and return errors (choose one)
- Handle errors at the appropriate level
- Consider using structured errors for better debugging
Performance Optimization
Memory Management
- Minimize allocations in hot paths
- Reuse objects when possible (consider
sync.Pool)
- Use value receivers for small structs
- Preallocate slices when size is known
- Avoid unnecessary string conversions
Profiling
- Use built-in profiling tools (
pprof)
- Benchmark critical code paths
- Profile before making performance changes
- Focus on algorithmic improvements first
- Consider using
testing.B for benchmarks
Testing
Test Organization
- Keep tests in the same package (white-box testing)
- Use
_test package suffix for black-box testing
- Name test files with
_test.go suffix
- Place test files next to the code they test
Writing Tests
- Use table-driven tests for multiple test cases
- Name tests descriptively using
TestFunctionNameScenario
- Use subtests with
t.Run for better organization
- Test both success and error cases
- Use
testify/assert and testify/require for assertions
- Include both positive and negative test cases
- Test edge cases and error conditions
- When including a standard library that conflicts with an existing import,
use the lib(library name) pattern to avoid conflicts.
Such as:
libtime for the time package.
Test Helpers
- Mark helper functions with
t.Helper()
- Create test fixtures for complex setup
- Use
testing.TB interface for functions used in tests and benchmarks
- Clean up resources using
t.Cleanup()
Global state: always save the original value and restore it
When a test mutates package-level variables (resolvers, loggers, clocks, time.Local, etc.),
save the original value into a local variable and restore it via t.Cleanup. Never restore to a
hardcoded value; you would overwrite whatever state preceded your test.
origResolver := myPackageResolver
t.Cleanup(func() { myPackageResolver = origResolver })
myPackageResolver = fakeResolver
origLocal := time.Local
t.Cleanup(func() { time.Local = origLocal })
time.Local = time.UTC
defer func() { time.Local = time.FixedZone("UTC", 0) }()
Security Best Practices
Input Validation
- Validate all external input
- Use strong typing to prevent invalid states
- Sanitize data before using in SQL queries
- Be careful with file paths from user input
- Validate and escape data for different contexts (HTML, SQL, shell)
Cryptography
- Use standard library crypto packages
- Never write your own cryptography
- Use crypto/rand for random number generation
- Store passwords using bcrypt or similar
- Use TLS for network communication
Documentation
Code Documentation
- Document all exported symbols
- Start documentation with the symbol name
- Use examples in documentation when helpful
- Keep documentation close to code
- Update documentation when code changes
README and Documentation Files
- Include clear setup instructions
- Document dependencies and requirements
- Provide usage examples
- Document configuration options
- Include troubleshooting section
Tools and Development Workflow
Essential Tools
go fmt: Format code
go vet: Find suspicious constructs
golint or golangci-lint: Additional linting
go test: Run tests
go mod: Manage dependencies
go generate: Code generation
Development Practices
- Run tests before committing
- Use pre-commit hooks for formatting and linting
- Keep commits focused and atomic
- Write clear, descriptive commit messages
- Review diffs before committing
Pre-Commit Quality Gate
REQUIRED BEFORE EVERY COMMIT. Run the following commands in sequence after any Go code
change. Commit after all pass with zero errors. Never skip this step; these
linters catch real bugs and style violations that will be flagged in CI or code review.
-
Code Modernization: Apply modern Go best practices; this rewrites files in place
modernize --fix "./..."
modernize modifies source files (e.g. replacing strings.Split
with strings.SplitSeq for Go 1.24+ range loops). Always stage its changes and
include them in the same commit as your feature code.
-
Field Alignment: Optimize struct field ordering for memory efficiency; this rewrites files in place
fieldalignment --fix "./..."
Warning: fieldalignment rewrites struct field order. Any inline struct
literals that use positional (unnamed) field initialization (common in
table-driven test files) will break after the reorder.
Always use named fields in struct literals (e.g. {Case: "foo", Now: t})
so that the order of fields in the struct definition does not matter.
-
Dependency Management: Clean up and organize module dependencies
go mod tidy
-
Formatting and Linting: Ensure code follows standards (must report zero errors)
gofmt -w .
golangci-lint run
After steps 1 through 3, always run git diff to review auto-applied changes before staging them.
All four steps must complete with zero errors before the commit is created.
Platform-specific files (_unix.go, _windows.go, _darwin.go)
If you add or modify a file with a platform-specific suffix, also cross-compile to catch
issues the local OS linter skips. On Windows, run:
$env:GOOS = "linux"; go build ./...; $env:GOOS = ""
On Linux/macOS, run:
GOOS=windows go build ./...
This catches import mismatches, missing symbols, and linter rules (like modernize
strings.SplitSeq) that apply on the non-host platform.
Common golangci-lint violations to fix before committing
These rules frequently fire on new code and are quick to resolve before linting:
| Linter | Trigger | Fix |
|---|
goconst | Same string literal occurs 3+ times | Extract to a named const |
gofmt | Incorrect indentation or comment spacing | Run gofmt -w .; it fixes automatically |
dupl | Two functions/test cases with near-identical structure | Add //nolint:dupl with a brief reason comment |
modernize | strings.Split used in a for range (Go 1.24+) | Run modernize --fix "./..." (auto-fixes) |
Common Pitfalls to Avoid
- Not checking errors
- Ignoring race conditions
- Creating goroutine leaks
- Not using defer for cleanup
- Modifying maps concurrently
- Confusing nil interfaces with nil pointers
- Forgetting to close resources (files, connections)
- Using global variables unnecessarily
- Over-using empty interfaces (
interface{} or any)
- Not considering the zero value of types