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C++ Style Guide

Table of Contents

Guides and References

The Node.js C++ codebase strives to be consistent in its use of language features and idioms, as well as have some specific guidelines for the use of runtime features.

Coding guidelines are based on the following guides (highest priority first):

  1. This document
  2. The Google C++ Style Guide
  3. The ISO C++ Core Guidelines

In general code should follow the C++ Core Guidelines, unless overridden by the Google C++ Style Guide or this document. At the moment these guidelines are checked manually by reviewers, with the goal to validate this with automatic tools.

Formatting

Unfortunately, the C++ linter (based on Googles cpplint), which can be run explicitly via make lint-cpp, does not currently catch a lot of rules that are specific to the Node.js C++ code base. This document explains the most common of these rules:

Left-leaning (C++ style) asterisks for pointer declarations

char* buffer; instead of char *buffer;

C++ style comments

Use C++ style comments (//) for both single-line and multi-line comments. Comments should also start with uppercase and finish with a dot.

Examples:

// A single-line comment.

// Multi-line comments
// should also use C++
// style comments.

The codebase may contain old C style comments (/* */) from before this was the preferred style. Feel free to update old comments to the preferred style when working on code in the immediate vicinity or when changing/improving those comments.

2 spaces of indentation for blocks or bodies of conditionals

if (foo)
  bar();

or

if (foo) {
  bar();
  baz();
}

Braces are optional if the statement body only has one line.

namespaces receive no indentation on their own.

4 spaces of indentation for statement continuations

VeryLongTypeName very_long_result = SomeValueWithAVeryLongName +
    SomeOtherValueWithAVeryLongName;

Operators are before the line break in these cases.

Align function arguments vertically

void FunctionWithAVeryLongName(int parameter_with_a_very_long_name,
                               double other_parameter_with_a_very_long_name,
                               ...);

If that doesnt work, break after the ( and use 4 spaces of indentation:

void FunctionWithAReallyReallyReallyLongNameSeriouslyStopIt(
    int okay_there_is_no_space_left_in_the_previous_line,
    ...);

Initialization lists

Long initialization lists are formatted like this:

HandleWrap::HandleWrap(Environment* env,
                       Local<Object> object,
                       uv_handle_t* handle,
                       AsyncWrap::ProviderType provider)
    : AsyncWrap(env, object, provider),
      state_(kInitialized),
      handle_(handle) {

CamelCase for methods, functions, and classes

Exceptions are simple getters/setters, which are named property_name() and set_property_name(), respectively.

class FooBar {
 public:
  void DoSomething();
  static void DoSomethingButItsStaticInstead();

  void set_foo_flag(int flag_value);
  int foo_flag() const;  // Use const-correctness whenever possible.
};

snake_case for local variables and parameters

int FunctionThatDoesSomething(const char* important_string) {
  const char* pointer_into_string = important_string;
}

snake_case_ for private class fields

class Foo {
 private:
  int counter_ = 0;
};

snake_case for C-like structs

For plain C-like structs snake_case can be used.

struct foo_bar {
  int name;
}

Space after template

template <typename T>
class FancyContainer {
 ...
}

Memory Management

Memory allocation

  • Malloc(), Calloc(), etc. from util.h abort in Out-of-Memory situations
  • UncheckedMalloc(), etc. return nullptr in OOM situations

Use nullptr instead of NULL or 0

Further reading in the C++ Core Guidelines.

Use explicit pointer comparisons

Use explicit comparisons to nullptr when testing pointers, i.e. if (foo == nullptr) instead of if (foo) and foo != nullptr instead of !foo.

Ownership and Smart Pointers

  • R.20: Use std::unique_ptr or std::shared_ptr to represent ownership
  • R.21: Prefer unique_ptr over shared_ptr unless you need to share ownership

Use std::unique_ptr to make ownership transfer explicit. For example:

std::unique_ptr<Foo> FooFactory();
void FooConsumer(std::unique_ptr<Foo> ptr);

Since std::unique_ptr has only move semantics, passing one by value transfers ownership to the callee and invalidates the caller's instance.

Don't use std::auto_ptr, it is deprecated (Reference).

Avoid non-const references

Using non-const references often obscures which values are changed by an assignment. Consider using a pointer instead, which requires more explicit syntax to indicate that modifications take place.

class ExampleClass {
 public:
  explicit ExampleClass(OtherClass* other_ptr) : pointer_to_other_(other_ptr) {}

  void SomeMethod(const std::string& input_param,
                  std::string* in_out_param);  // Pointer instead of reference

  const std::string& get_foo() const { return foo_string_; }
  void set_foo(const std::string& new_value) { foo_string_ = new_value; }

  void ReplaceCharacterInFoo(char from, char to) {
    // A non-const reference is okay here, because the method name already tells
    // users that this modifies 'foo_string_' -- if that is not the case,
    // it can still be better to use an indexed for loop, or leave appropriate
    // comments.
    for (char& character : foo_string_) {
      if (character == from)
        character = to;
    }
  }

 private:
  std::string foo_string_;
  // Pointer instead of reference. If this object 'owns' the other object,
  // this should be a `std::unique_ptr<OtherClass>`; a
  // `std::shared_ptr<OtherClass>` can also be a better choice.
  OtherClass* pointer_to_other_;
};

Use AliasedBuffers to manipulate TypedArrays

When working with typed arrays that involve direct data modification from C++, use an AliasedBuffer when possible. The API abstraction and the usage scope of AliasedBuffer are documented in aliased_buffer.h.

// Create an AliasedBuffer.
AliasedBuffer<uint32_t, v8::Uint32Array> data;
...

// Modify the data through natural operator semantics.
data[0] = 12345;

Others

Type casting

  • Use static_cast<T> if casting is required, and it is valid
  • Use reinterpret_cast only when it is necessary
  • Avoid C-style casts ((type)value)
  • dynamic_cast does not work because Node.js is built without Run Time Type Information

Further reading:

  • ES.48: Avoid casts
  • ES.49: If you must use a cast, use a named cast

Using auto

Being explicit about types is usually preferred over using auto.

Use auto to avoid type names that are noisy, obvious, or unimportant. When doing so, keep in mind that explicit types often help with readability and verifying the correctness of code.

for (const auto& item : some_map) {
  const KeyType& key = item.first;
  const ValType& value = item.second;
  // The rest of the loop can now just refer to key and value,
  // a reader can see the types in question, and we've avoided
  // the too-common case of extra copies in this iteration.
}

Do not include *.h if *-inl.h has already been included

Do

#include "util-inl.h"  // already includes util.h

instead of

#include "util.h"
#include "util-inl.h"

Avoid throwing JavaScript errors in C++

When there is a need to throw errors from a C++ binding method, try to return the data necessary for constructing the errors to JavaScript, then construct and throw the errors using lib/internal/errors.js.

In general, type-checks on arguments should be done in JavaScript before the arguments are passed into C++. Then in the C++ binding, simply using CHECK assertions to guard against invalid arguments should be enough.

If the return value of the binding cannot be used to signal failures or return the necessary data for constructing errors in JavaScript, pass a context object to the binding and put the necessary data inside in C++. For example:

void Foo(const FunctionCallbackInfo<Value>& args) {
  Environment* env = Environment::GetCurrent(args);
  // Let the JavaScript handle the actual type-checking,
  // only assertions are placed in C++
  CHECK_EQ(args.Length(), 2);
  CHECK(args[0]->IsString());
  CHECK(args[1]->IsObject());

  int err = DoSomethingWith(args[0].As<String>());
  if (err) {
    // Put the data inside the error context
    Local<Object> ctx = args[1].As<Object>();
    Local<String> key = FIXED_ONE_BYTE_STRING(env->isolate(), "code");
    ctx->Set(env->context(), key, err).FromJust();
  } else {
    args.GetReturnValue().Set(something_to_return);
  }
}

// In the initialize function
env->SetMethod(target, "foo", Foo);
exports.foo = function(str) {
  // Prefer doing the type-checks in JavaScript
  if (typeof str !== 'string') {
    throw new errors.codes.ERR_INVALID_ARG_TYPE('str', 'string');
  }

  const ctx = {};
  const result = binding.foo(str, ctx);
  if (ctx.code !== undefined) {
    throw new errors.codes.ERR_ERROR_NAME(ctx.code);
  }
  return result;
};

Avoid throwing JavaScript errors in nested C++ methods

When you need to throw a JavaScript exception from C++ (i.e. isolate()->ThrowException()) prefer to do it as close to the return to JS as possible, and not inside of nested C++ calls. Since this changes the JS execution state doing it closest to where it is consumed reduces the chances of side effects.

Node.js is built without C++ exception handling, so code using throw or even try and catch will break.