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I've been involved in developing coding standards which were quite elaborate. My own experience is that it was hard to enforce if you don't have proper processes to maintain it and strategies to uphold it.

Now I'm working in, and leading, an environment even less probable to have processes and follow-up strategies in quite a while. Still I want to uphold some minimum level of respectable code. So I thought I would get good suggestions here, and we might together produce a reasonable light-weight subset of the most important coding standard practices for others to use as reference.

So, to emphasize the essence here:

What elements of a C++ coding standard are the most crucial to uphold?

  • Answering/voting rules

    • 1 candidate per answer, preferably with a brief motivation.

    • Vote down candidates which focuses on style and subjective formatting guidelines. This is not to indicate them as unimportant, only that they are less relevant in this context.

    • Vote down candidates focusing on how to comment/document code. This is a larger subject which might even deserve its own post.

    • Vote up candidates that clearly facilitates safer code, which minimizes the risk of enigmatic bugs, which increases maintainability, etc.

    • Don't cast your vote in any direction on candidates you are uncertain about. Even if they sound reasonable and smart, or on the contrary "something surely nobody would use", your vote should be based on clear understanding and experience.

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1  
An alternative approach, is to take an existing coding standard (eg. AV JSF, MISRA C++, www.codingstandard.com) and then post the rules you feel are good candidates. –  Richard Corden Oct 28 '08 at 12:33
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closed as not constructive by Bill the Lizard Aug 8 '12 at 1:51

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40 Answers

Prefer RAII.

STL's auto (and shared in boost & C++0x) pointers may help.

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I wasn't even aware of the term "RAII" until recently. I always considered the concept as "common sense". –  Aardvark Oct 28 '08 at 13:35
2  
It amazes me how many C++ programmers don't know the RAII idiom. I've had to enforce this with a rule saying "Never use 'new' without checking with the team lead." –  Kristopher Johnson Oct 28 '08 at 20:09
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Use const identifiers by default. They provide guarantees for the reader/maintainer, and are way easier to build in than to insert afterwards.

Both member variables and methods would be declared const, as well as function arguments. const member variables enforce proper use of the initializer list.

A side-effect of this rule: avoid methods with side-effects.

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Good point about inserting const later - that's painful... +1 –  Aardvark Oct 28 '08 at 14:59
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Use C++ casts instead of C casts

use:

  • static_cast
  • const_cast
  • reinterpret_cast
  • dynamic_cast

but never C-style casts.

How it clearly facilitates safer code, which minimizes the risk of enigmatic bugs, which increases maintainability, etc.

Each cast has limited powers. E.g., if you want to remove a const (for whatever reason), const_cast won't change the type at the same time (which could be a bug difficult to find).

Also, this enables a reviewer to search for them and then, the coder to justify them if needed.

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Yes, absolutely, but I don't know that I would recommend reinterpret_cast either... –  Ed S. Aug 18 '09 at 21:11
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@PavelRadzivilovsky, this is exactly one of the cases for reinterpret_cast<>. reinterpret_cast<> is designed for converting between Foo* and Bar*, where Foo and Bar are completely different types (in your example, std::uint8* and struct foo. reinterpret_cast<> is also weaker than a C-style cast, because it cannot cast away const or volatile –  Patrick Niedzielski Oct 14 '12 at 17:58
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Use references instead of pointers where possible. This prevents constant defensive NULL checks.

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But if you dereference a pointer to initialize the reference, make sure the pointer isn't NULL first! –  Mark Ransom Oct 28 '08 at 14:33
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+1 to the effect, not to the reasoning. i sometimes return null iterator, e.g. find(). is that bad? higher level languages that use reference types typically have a None object. –  Dustin Getz Oct 28 '08 at 21:26
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@Dustin, @Aardvark: The problem is that if you return a reference then you're kind of forced to use exceptions to indicate failure rather than testing a returned pointer for NULL. However, if you don't need the error checking, use a reference because it prevents a lot of stupid mistakes. It also makes code a little easier to read. I'd also advocate using references to simulate Pascal's with, e.g. SubClassType &sub = SomePtr->SomeLowerLevel[index]->member; and then you use sub. –  Harvey Jan 10 '11 at 21:21
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Make sure that your compiler's warning level is set high enough (/Wall preferably) so that it will catch silly mistakes like:

if (p = 0)

when you really meant

if (p == 0)

so that you don't need to resort to even sillier tricks like:

if (0 == p)

which degrade the readability of your code.

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... and compile with WISE (Warning is Error) –  xtofl Oct 28 '08 at 10:52
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Another way: If p is const, then if(p = 0) won't compile anyway, but this is another post... –  paercebal Oct 28 '08 at 13:35
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@Mooing Duck: I've run into that problem. Fortunately, it's solvable: stackoverflow.com/questions/525677/… –  Ferruccio Oct 26 '11 at 17:18
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Use vector and string instead of C-style arrays and char *

Use std::vector whenever you need to create a buffer of data, even if the size is fixed.

Use std::string whenever you need to have a string.

How it clearly facilitates safer code, which minimizes the risk of enigmatic bugs, which increases maintainability, etc.?

std::vector: The user of a vector can always find its size, and the vector can be resized if needed. It can even be given (through the (&(myVector[0])) notation) to a C API. Of course, the vector will clean after itself.

std::string: Almost the same reasons above.And the fact it will always be correctly initialized, that it can't be overrun, that it will handle modifications gracefully, like concatenations, assignation, etc, and in a natural way (using operators instead of functions)

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The problem with this is that I write a lot of OS-interface code, which makes heavy use of char arrays. Having some kind of standard that required me to use std::string for objects that are never accessed as anything but char arrays would lead to a lot of dumb code. –  T.E.D. Oct 28 '08 at 13:43
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What is std::string? Maybe you meant std::wstring? :) –  280Z28 Aug 18 '09 at 10:42
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Keep functions to a reasonable size. Personally, I like to keep functions under 25 lines. Readability is enhanced when you can take a function in as a unit rather than having to scan up and down trying to figure out how it works. If you have to scroll to read it, it makes matters even worse.

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assert all assumptions, including temporary assumptions, like unimplemented behavior. assert function entry and exit conditions if nontrivial. assert all nontrivial intermediate states. your program should never crash without an assert failing first. you can customize your assert mechanism to ignore future occurances.

Use error-handling code for conditions you expect to occur; use assertions for conditions that should never occur. Error handling typically checks for bad input data; assertions check for bugs in the code.

If error-handling code is used to address an anomalous condition, the error handling will enable the program to respond to the error gracefully. If an assertion is fired for an anomalous condition, the corrective action is not merely to handle an error gracefully—the corrective action is to change the program's source code, recompile, and release a new version of the software. A good way to think of assertions is as executable documentation—you can't rely on them to make the code work, but they can document assumptions more actively than program-language comments can [1].

  1. McConnell, Steve. Code Complete, Second Edition. Microsoft Press © 2004. Chapter 8 - Defensive Programming
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Know who is owner of that memory.

  • create objects on stack as much as possible (no useless new)
  • Avoid transfer of ownership unless really needed
  • Use RAII and smart pointers
  • If transfer of ownership is mandated (without smart pointers), then, document clearly the code (the functions should have a non-ambiguous name, always using the same name pattern, like "char * allocateMyString()" and "void deallocateMyString(char * p)".

How it clearly facilitates safer code, which minimizes the risk of enigmatic bugs, which increases maintainability, etc.?

Not having a clear memory ownership philosophy leads to interesting bugs or memory leaks, and time lost wondering if the char * returned by this function should be deallocated by the user, or not, or given back to a special deallocation function, etc..

As much as possible, the function/object allocating the memory must be the function/object deallocating it.

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Side note: Do not impose SESE (Single Entry Single Exit) (i.e. do not forbid more than one return, the use of break/continue/...)

In C++, this is an utopia as throw is another return point. SESE had two advantages in C and exception-less languages:

  • the deterministic release of resources that is now neatly handled by the RAII idiom in C++,
  • making functions easier to maintain, that should not be a concern as the functions must be kept short (as specified by the rule of "one function, one responsibility")
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Premature optimization is the root of all evil

Write safe and correct code first.

Then, if you have performance problems, and if your profiler told you the code is slow, you can try to optimize it.

Never believe you will optimize snippets of code better than the compiler.

When looking for optimizations, study the algorithms used, and potentially better alternatives.

How it clearly facilitates safer code, which minimizes the risk of enigmatic bugs, which increases maintainability, etc.?

Usually, "optimized" (or supposedly optimized) code is a lot less clearer, and tend to express itself through raw, near-the-machine way, instead of a more business-oriented way. Some optimizations rely of switchs, if, etc., and then will be more difficult to test because of multiple code paths.

And of course, optimization before profiling often lead to zero performance gain.

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Curly braces for any control statement. (Thanks to own experience and reinforced by reading Code Complete v2):

// bad example - what the writer wrote
if( i < 0 ) 
    printf( "%d\n", i );
    ++i; // this error is _very_ easy to overlook!  

// good example - what the writer meant
if( i < 0 ) {
    printf( "%d\n", i );
    ++i;
}
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6  
shrug, i think its subjective. for early bailout type checks the braces just get in the way. i'd be annoyed if this was in a coding standard. –  Dustin Getz Oct 28 '08 at 21:28
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the indentation is more important than the braces - that's what shows you where something should be, the "++i;" will always stand out in well-indented code. –  gbjbaanb Nov 1 '08 at 16:04
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I agree. I see no advantage in leaving out the braces, only potential problems. –  Ed S. Aug 18 '09 at 21:20
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-1 shortening code is important. Proper indentation seems to solve these problems, and misindentation problems are easy to spot during CR. –  Pavel Radzivilovsky Jan 4 '10 at 9:56
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this is subjective, but in my book avoiding potential mistakes is more important than having less curly braces to look at –  slf Mar 23 '10 at 13:26
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Prefer standard-compliant code. Prefer to use the standard libraries.

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Only trivial use of the ? : operator, i.e.

float x = (y > 3) ? 1.0f : -1.0f;

is ok, but this is not:

float x = foo(2 * ((y > 3) ? a : b) - 1);
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I agree with the spirit of this rule, but I think the non-trivial example you give is perfectly fine. I would disallow nested ternary operators. –  Ferruccio Oct 28 '08 at 10:48
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Use a lint tool - i.e. PC-Lint. This will catch many of the 'structural' coding guideline issues. Meaning things that read to actual bugs rather than style/readability issues. (Not that readability is not important, but it is less so than actual errors).

Example, rather than requiring this style:

if (5 == variable)

As a way of preventing the 'unintended assignment' bug, let lint find it.

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Never use structs without proper constructors

structs are legal C++ constructs, used to aggregate data together. Still, the data should be always properly initialized.

All C++ structs should have at least a default constructor, which will set its aggregated data to default values.

struct MyStruct // BAD
{
   int i ; bool j ; char * k ;
}

struct MyStruct // GOOD
{
   MyStruct() : i(0), j(true), k(NULL) : {}

   int i ; bool j ; char * k ;
}

And if they are usually initialized in some way, provide a constructor to enable the user to avoid a C-style struct initialization:

MyStruct oMyStruct = { 25, true, "Hello" } ; // BAD
MyStruct oMyStruct(25, true, "Hello") ;      // GOOD

How it clearly facilitates safer code, which minimizes the risk of enigmatic bugs, which increases maintainability, etc.?

Having struct without a proper constructor leaves the user of this struct the task of initializing it. So, the following code will be copy pasted from function to function:

void doSomething()
{
   MyStruct s = { 25, true, "Hello" } ;
  // Etc.
}

void doSomethingElse()
{
   MyStruct s = { 25, true, "Hello" } ;
  // Etc.
}

// Etc.

Which means that, in C++, if you need to add a field in the struct, or change the order of the internal data, you have to go through all these initializations to verify each is still correct. With a proper constructor, modifying the internals of the structs is decoupled from its use.

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A constructor makes the type a non-POD. How do you create a POD struct? –  MSalters Oct 28 '08 at 14:50
1  
If you are simply initializing the values of i and k to defaults for the type, you should use i(), k() instead. That way the items in the initializer list that have particular meaning to that constructor are the only ones with specific values in parentheses. –  280Z28 Aug 18 '09 at 10:56
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Don't add types or functions to the global namespace.

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This is a good suggestion, but the rationale is missing: you pollute the global namespace by doing it and thereby potentially causing a whole lot problems if the name exists elsewhere. –  twokats Nov 5 '08 at 21:06
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Principle of least surprise.

Maybe it's not the "flavor" of rules you are looking for, but I'd definitely put it first.

It is not only the root, reason and sanity check for all the boring stuff like formatting and commenting guidelines, but - to me more importantly - puts the emphasis on the code being read and understood, rather than just compiled.

It also covers the only reasonable code quality measure I have ever encountered - WTF's per minute.

I'd use that first point to stress the importance and value of clear, consistent code, and to motivate the following items in the coding standard.

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Forbid t[i]=i++; f(i++,i);, and so on as there is no (portable) guarantees regarding what is executed first.

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"Undefined" is the word. What specifiy how the instructions are sequenced are the Sequence points, and there is no sequence point between the two evaluations of i and i++ in both examples. This is actually a quite well known issue in C&C++. See the FAQ C++ lite §39.15 and §39.16 –  Luc Hermitte Oct 28 '08 at 20:46
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Always, always, always do proper data member initialization on object construction.

I ran into a problem where an object constructor was relying on some "default" initialization for its data members. Building the code under two platforms (Windows/Linux) gave different results and a hard-to-find memory bug. The result was that a data member was not initialized in the constructor, and used before it was initialized. On one platform (Linux), the compiler initialized it to what the code writer thought appropriate default. On Windows, the value was initialized to something - but garbage. On use of the data member, everything went haywire. Once the initialization was fixed - no more problem.

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Method and variable names in a common naming scheme for consistency; I don't tend to be bother much by anything else while reading source.

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If the toolchain in use (or projected use) has an inefficient implementation of exceptions, it might be wise to avoid their use. I've worked under such conditions.

Update: here is someone else's rationale for "Embedded C++", which seems to exclude exceptions. It makes the following points:

  • It is difficult to estimate the time between when an exception has occurred and control has passed to a corresponding exception handler.
  • It is difficult to estimate memory consumption for exception handling.

There is more elaborate text on that page, I didn't want to copy it all. Plus, it's 10 years old so it might be of no use any longer, which is why I included the part about the toolchain. Perhaps that should also read "if memory is not considered a major problem", and/or "if predictable real-time response is not required", and so on.

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Public inheritance must model The Liskov Substitution Principle (LSP).

Code reuse/import without substituability must be implemented with private inheritance when a very strong coupling makes sense, or with aggregation otherwise.

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Beware of C API

The C API can be very efficient, but will need exposed raw data (i.e. pointers, etc.), which won't help the safety of the code. Use existing C++ API instead, or encapsulate the C API with C++ code.

e.g.:

// char * d, * s ;
strcpy(d, s) ; // BAD

// std::string d, s ;
d = s ;        // GOOD

Never use strtok

strtok is not reentrant. Which means that if one strtok is started while another is not ended, one will corrupt the "internal data" of the other.

How it clearly facilitates safer code, which minimizes the risk of enigmatic bugs, which increases maintainability, etc.?

Using C API means using raw types, which can lead to interesting bugs like buffer overflow (and potential stack corruption) when a sprintf goes too far (or string cropping when using snprintf, which is a kind of data corruption). Even when working on raw data, malloc can be easily abused, as shown by the following code:

int * i = (int *) malloc(25) ; // Now, I BELIEVE I have an array of 25 ints!
int * j = new int[25] ;        // Now, I KNOW I have an array of 25 ints!

Etc. etc..

As for strtok: C and C++ are stack-enabled languages, that enable to user to not care about what functions are above his own on the stack, and what functions will be called below his own on the stack. strtok removes this freedom of "not caring"

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Avoid using generated copy constructor and operator= by default.

  • If you want your object to be copiable.
    • If every attribute can be trivially copied, comment clearly you are using implicit copy constructor and operator= deliberately.
    • Otherwise, write your own constructors, using the initialization field to initialize attributes and following the header order (which is the real construction order).
  • If still don't know (default option) or you think you dont want to copy the objects of a certain class, declare its copy constructor and operator= as private. This way the compiler will let you know when you are doing something you don't want to do.
    class foo
    {
       //...
    private:
       foo( const foo& );
       const foo& operator=( const foo& );
    };

Or in a cleaner way if you are using boost:

    class foo : private boost::noncopyable
    {
      ...
    };
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Whatever guidelines, make it very easy to recognize applicability: the less choice you have, the less time you loose choosing. And the easier it becomes to brainparse the code.

Examples of 'hard to recognize':

  • No braces if only one line in the conditional body
  • Use K&R brace placement for namespaces, but put brace underneath conditions in function definition code
  • ...
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A point should be dedicated to explain the difference between value semantics and entity semantics. It could provide the typical code snippets about how copy is handled is the various cases.

See also Checklist for writing copy constuctor and assignment operator in C++

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Probably a no-brainer, but nevertheless an important rule:

Avoid undefined behavior.

There's an awful lot of it in C++, and it's probably impossible to write a nontrivial application that doesn't depend on it somehow, but the general rule should still be "undefined behavior is bad". (Because sadly there are C++ programmers out there who feels that "it works on my machine/compiler" is good enough).

If you have to rely on it, make it clear to everyone what, why, where and how.

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Pass input arguments by const reference, and output or input-output arguments by pointer. This is a rule borrwed from the Google style guide.

I used to have an absolute aversion to pointers and preferred to use references whenever possible (as suggested by one of the posters in this thread). However, adopting this output-arg-as-pointer convention has made my functions much more readable. For example,

SolveLinearSystem(left_hand_side, right_hand_side, &params);

makes it clear that "params" is being written to.

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Curly braces required if you have more than one step of indentation:

if (bla) {
  for (int i = 0; i < n; ++i)
    foo();
}

This helps to keep indentation in line with how the compiler sees the code.

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