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My Code Styleguide

Python

  1. Format all code with black.

  2. Put all code in functions. If you are writing a script, put the script in a function called main and call main() at the end of the script using the standard invocation:

    if __name__ == "__main__":
    main()

Golang

  1. Any project that has more than 2 or 3 modules should use the uber/fx DI framework to keep things tidy.

  2. Obviously, don't commit anything that hasn't been go fmt'd. The only exception is when committing things that aren't yet syntactically valid, which should only happen pre-v0.0.1 or on a non-main branch.

  3. Even if you are planning to deal with only positive integers, use int/int64 types instead of uint/uint64 types. This is for consistency and compatibility with the standard library; it's better than casting all the time.

  4. Try to use zerolog for logging. It's fast and has a nice API. For smaller/quick projects, the standard library's log package (and specifically log/slog) is fine. In that case, log structured logs whenever possible, and import sneak.berlin/go/simplelog to configure it appropriately. Example:

    package main

import (
    "log/slog"
    _ "sneak.berlin/go/simplelog"
)

func main() {
    slog.Info("Starting up")
}

  5. Write at least a single test to check compilation. The test file can be empty, but it should exist. This is to ensure that go test ./... will always function as a syntax check at a minimum.

  6. For anything beyond a simple script or tool, or anything that is going to run in any sort of "production" anywhere, make sure it passes golangci-lint.

  7. Write a Dockerfile for every repo, even if it only runs the tests and linting. docker build . should always make sure that the code is in an able-to-be-compiled state, linted, and any tests run. The Docker build should fail if linting doesn't pass.

  8. Include a Makefile with targets for at least clean and test. If there are multiple binaries, include a target for each binary. If there are multiple binaries, include a target for all that builds all binaries.

  9. If you are writing a single-module library, .go files are okay in the repo root.

  10. If you are writing a multi-module project, put all .go files in a pkg/ or internal/ directory. This is to keep the root clean and to make it easier to see what is a library and what is a binary.

  11. Binaries go in cmd/ directories. Each binary should have its own directory. This is to keep the root clean and to make it easier to see what is a library and what is a binary. Only package main files should be in cmd/* directories.

  12. Keep the main() function as small as possible.

  13. Keep the main package as small as possible. Move as much code as is feasible to a library package.

  14. HTTP HandleFuncs should be returned from methods or functions that need to handle HTTP requests. Don't use methods or our top level functions as handlers.

  15. Provide a .gitignore file that ignores at least *.log, *.out, and *.test files, as well as any binaries.

  16. Constructors should be called New() whenever possible. modulename.New() works great if you name the packages properly.

  17. Don't make packages too big. Break them up.

  18. Don't make functions or methods too big. Break them up.

  19. Use descriptive names for functions and methods. Don't be afraid to make them a bit long.

  20. Use descriptive names for modules and filenames. Avoid generic names like server. util is banned.

  21. Constructors should take a Params struct if they need more than 1-2 arguments. Positional arguments are an endless source of bugs and should be avoided whenever possible.

  22. Use context.Context for all functions that need it. If you don't need it, you can pass context.Background(). Anything long-running should get and abide by a Context. A context does not count against your number of function or method arguments for purposes of calculating whether or not you need a Params struct, because the ctx is always first.

  23. Contexts are always named ctx.

  24. Use context.WithTimeout or context.WithDeadline for any function that could potentially run for a long time. This is especially true for any function that makes a network call. Sane timeouts are essential.

  25. Avoid global state, especially global variables. If you need to store state that is global to your launch or application instance, use a package globals or appstate with a struct and a constructor and require it as a dependency in your constructors. This will allow consumers to be more easily testable and will make it easier to reason about the state of your application. Alternately, if your dependency graph allows for it, put it in the main struct/object of your application, but remember that this harms testability.

  26. Package-global "variables" are ok if they are constants, such as static strings or integers or errors.

  27. Whenever possible, avoid hardcoding numbers or values in your code. Use descriptively-named constants instead. Recall the famous SICP quote: "Programs must be written for people to read, and only incidentally for machines to execute." Rather than comments, a descriptive constant name is much cleaner.

    Example:

    
const jsonContentType = "application/json; charset=utf-8"

func (s *Handlers) respondJSON(w http.ResponseWriter, r *http.Request, data interface{}, status int) {
     w.WriteHeader(status)
     w.Header().Set("Content-Type", jsonContentType)
     ...
 }

  28. Define your struct types near their constructors.

  29. Define your interface types near the functions that use them, or if you have multiple conformant types, put the interface(s) in their own file.

  30. Define errors as package-level variables. Use a descriptive name for the error. Use errors.New to create the error. If you need to include additional information in the error, use a struct that implements the error interface.

  31. Use lowerCamelCase for local function/variable names. Use UpperCamelCase for type names, and exported function/variable names. Use snake_case for json keys. Use lowercase for filenames.

  32. Explicitly specify UTC for datetimes unless you have a very good reason not to. Use time.Now().UTC() to get the current time in UTC.

  33. String dates should always be ISO8601 formatted. Use time.Time.Format with time.RFC3339 to get the correct format.

  34. Use time.Time for all date and time values. Do not use int64 or string for dates or times internally.

  35. When using time.Time in a struct, use a pointer to time.Time so that you can differentiate between a zero value and a null value.

  36. Use time.Duration for all time durations. Do not use int64 or string for durations internally.

  37. When using time.Duration in a struct, use a pointer to time.Duration so that you can differentiate between a zero value and a null value.

  38. Whenever possible, in argument types and return types, try to use standard library interfaces instead of concrete types. For example, use io.Reader instead of *os.File. Tailor these to the needs of the specific function or method. Examples:

     1. **`io.Reader`** instead of `*os.File`:

     - `io.Reader` is a common interface for reading data, which can be
       implemented by many types, including `*os.File`, `bytes.Buffer`,
       `strings.Reader`, and network connections like `net.Conn`.

 2. **`io.Writer`** instead of `*os.File` or `*bytes.Buffer`:

     - `io.Writer` is used for writing data. It can be implemented by
       `*os.File`, `bytes.Buffer`, `net.Conn`, and more.

 3. **`io.ReadWriter`** instead of `*os.File`:

     - `io.ReadWriter` combines `io.Reader` and `io.Writer`. It is often
       used for types that can both read and write, such as `*os.File`
       and `net.Conn`.

 4. **`io.Closer`** instead of `*os.File` or `*net.Conn`:

     - `io.Closer` is used for types that need to be closed, including
       `*os.File`, `net.Conn`, and other resources that require cleanup.

 5. **`io.ReadCloser`** instead of `*os.File` or `http.Response.Body`:

     - `io.ReadCloser` combines `io.Reader` and `io.Closer`, and is
       commonly used for types like `*os.File` and `http.Response.Body`.

 6. **`io.WriteCloser`** instead of `*os.File` or `*gzip.Writer`:

     - `io.WriteCloser` combines `io.Writer` and `io.Closer`. It is used
       for types like `*os.File` and `gzip.Writer`.

 7. **`io.ReadWriteCloser`** instead of `*os.File` or `*net.TCPConn`:

     - `io.ReadWriteCloser` combines `io.Reader`, `io.Writer`, and
       `io.Closer`. Examples include `*os.File` and `net.TCPConn`.

 8. **`fmt.Stringer`** instead of implementing a custom `String` method:

     - `fmt.Stringer` is an interface for types that can convert
       themselves to a string. Any type that implements the `String()
       string` method satisfies this interface.

 9. **`error`** instead of custom error types:

     - The `error` interface is used for representing errors. Instead of
       defining custom error types, you can use the `errors.New`
       function or the `fmt.Errorf` function to create errors.

 10. **`net.Conn`** instead of `*net.TCPConn` or `*net.UDPConn`:

     - `net.Conn` is a generic network connection interface that can be
       implemented by TCP, UDP, and other types of network connections.

 11. **`http.Handler`** instead of custom HTTP handlers:

     - `http.Handler` is an interface for handling HTTP requests.
       Instead of creating custom handler types, you can use types that
       implement the `ServeHTTP(http.ResponseWriter, *http.Request)`
       method.

 12. **`http.HandlerFunc`** instead of creating a new type:

     - `http.HandlerFunc` is a type that allows you to use functions as
       HTTP handlers by implementing the `http.Handler` interface.

 13. **`encoding.BinaryMarshaler` and `encoding.BinaryUnmarshaler`**
     instead of custom marshal/unmarshal methods:

     - These interfaces are used for binary serialization and
       deserialization. Implementing these interfaces allows types to
       be encoded and decoded in a standard way.

 14. **`encoding.TextMarshaler` and `encoding.TextUnmarshaler`** instead
     of custom text marshal/unmarshal methods:

     - These interfaces are used for text-based serialization and
       deserialization. They are useful for types that need to be
       represented as text.

 15. **`sort.Interface`** instead of custom sorting logic:

     - `sort.Interface` is an interface for sorting collections. By
       implementing the `Len`, `Less`, and `Swap` methods, you can sort
       any collection using the `sort.Sort` function.

 16. **`flag.Value`** instead of custom flag parsing:
     - `flag.Value` is an interface for defining custom command-line
       flags. Implementing the `String` and `Set` methods allows you to
       use custom types with the `flag` package.

  39. Avoid using panic in library code. Instead, return errors to allow the caller to handle them. Reserve panic for truly exceptional conditions.

  40. Use defer to ensure resources are properly cleaned up, such as closing files or network connections. Place defer statements immediately after resource acquisition.

  41. When calling a function with go, wrap the function call in an anonymous function to ensure it runs in the new goroutine context:

    Right:

    go func() {
    someFunction(arg1, arg2)
}()

    Wrong:

    go someFunction(arg1, arg2)

  42. Use iota to define enumerations in a type-safe way. This ensures that the constants are properly grouped and reduces the risk of errors.

  43. Don't hardcode big lists in your code. Either isolate lists in their own module/package, or use a third party library. For example, if you need a list of country codes, you can use https://github.com/emvi/iso-639-1.

  44. When storing numeric values that represent a number of units, either include the unit in the name, or use a type alias, or use a 3p library such as [github.com/alecthomas/units)(https://github.com/alecthomas/units) for SI/IEC byte units, or github.com/bcicen/go-units for temperatures (and others). The type system is your friend, use it.

Other Golang Tips and Best Practices (Optional)

  1. When passing channels to goroutines, use read-only (<-chan) or write-only (chan<-) channels to communicate the direction of data flow clearly.

  2. Use io.MultiReader to concatenate multiple readers and io.MultiWriter to duplicate writes to multiple writers. This can simplify the handling of multiple data sources or destinations.

  3. For simple counters and flags, use the sync/atomic package to avoid the overhead of mutexes.

  4. When using mutexes, minimize the scope of locking to reduce contention and potential deadlocks. Prefer to lock only the critical sections of code. Try to encapsulate the critical section in its own function or method. Acquire the lock as the first line of the function, defer release of the lock as the second line of the function, and lines 3-5 should perform the task. Try to keep it as short as possible. Avoid using mutexes in the middle of a function. In short, build atomic functions.

  5. Design types to be immutable where possible. This can help avoid issues with concurrent access and make the code easier to reason about.

  6. Global state can lead to unpredictable behavior and makes the code harder to test. Use dependency injection to manage state.

  7. Avoid using init functions unless absolutely necessary as they can lead to unpredictable initialization order and make the code harder to understand.

  8. Provide comments for all public interfaces explaining what they do and how they should be used. This helps other developers understand the intended use.

  9. Be mindful of resource leaks when using time.Timer and time.Ticker. Always stop them when they are no longer needed.

  10. Use sync.Pool to manage a pool of reusable objects, which can help reduce GC overhead and improve performance in high-throughput scenarios.

  11. Avoid using large buffer sizes for channels. Unbounded channels can lead to memory leaks. Use appropriate buffer sizes based on the application's needs.

  12. Always handle the case where a channel might be closed. This prevents panic and ensures graceful shutdowns.

  13. For small structs, use value receivers to avoid unnecessary heap allocations. Use pointer receivers for large structs or when mutating the receiver.

  14. Only use goroutines when necessary. Excessive goroutines can lead to high memory consumption and increased complexity.

  15. Use sync.Cond for more complex synchronization needs that cannot be met with simple mutexes and channels.

  16. Reflection is powerful but should be used sparingly as it can lead to code that is hard to understand and maintain. Prefer type-safe solutions.

  17. Avoid storing large or complex data in context. Context should be used for request-scoped values like deadlines, cancellation signals, and authentication tokens.

  18. Use runtime.Callers and runtime.CallersFrames to capture stack traces for debugging and logging purposes.

  19. Use the testing.TB interface to write helper functions that can be used with both *testing.T and *testing.B.

  20. Use struct embedding to reuse code across multiple structs. This is a form of composition that can simplify code reuse.

  21. Prefer defining explicit interfaces in your packages rather than relying on implicit interfaces. This makes the intended use of interfaces clearer and the code more maintainable.