From d81345d8f639df0886dcf1e5ed84ff0e7e425e92 Mon Sep 17 00:00:00 2001 From: Vinnie Falco Date: Tue, 4 Jun 2013 07:07:09 -0700 Subject: [PATCH] Update CodingStyle document --- CodingStyle.md | 145 +++++++++++++++++++++++++++---------------------- 1 file changed, 81 insertions(+), 64 deletions(-) diff --git a/CodingStyle.md b/CodingStyle.md index b9845fa2e4..a060e14af3 100644 --- a/CodingStyle.md +++ b/CodingStyle.md @@ -6,31 +6,37 @@ Coding standards used here are extreme strict and consistent. The style evolved gradually over the years, incorporating generally acknowledged best-practice C++ advice, experience, and personal preference. -## D.R.Y.: Don't Repeat Yourself! +## Don't Repeat Yourself! The [Don't Repeat Yourself][1] principle summarises the essence of what it means to write good code, in all languages, at all levels. ## Formatting -* No tab characters! -* Tabs are 4 spaces! +The goal of source code formatting should always be to make things as easy to +read as possible. White space is used to guide the eye so that details are not +overlooked. Blank lines are used to separate code into "paragraphs." + +* No tab characters please. +* Tab stops are set to 4 spaces. * Braces are indented in the [Allman style][2]. -* Always put a space before and after all binary operators, especially - the assignment `operator=`! +* Always place a space before and after all binary operators, + especially assignments (`operator=`). * The `!` operator should always be followed by a space. * The `~` operator should be preceded by a space, but not followed by one. -* The `++` and `--` operators should have no spaces between the operator and its - operand. -* Never put a space before a comma. Always put a space after a comma. -* Always put a space before an open parenthesis! (One exception to this is if - you've got a pair of empty parentheses) +* The `++` and `--` operators should have no spaces between the operator and + the operand. +* A space never appears before a comma, and always appears after a comma. +* Always place a space before an opening parenthesis. One exception is if + the parentheses are empty. * Don't put spaces after a parenthesis. A typical member function call might look like this: `foobar (1, 2, 3);` * In general, leave a blank line before an `if` statement. * In general, leave a blank line after a closing brace `}`. +* Do not place code or comments on the same line as any opening or + closing brace. * Do not write `if` statements all-on-one-line. The exception to this is when - you've got a sequence of similar if statements, and are aligning them all + you've got a sequence of similar `if` statements, and are aligning them all vertically to highlight their similarities. * In an `if-else` statement, if you surround one half of the statement with braces, you also need to put braces around the other half, to match. @@ -46,7 +52,7 @@ means to write good code, in all languages, at all levels. and write the type name again, to make it quite clear what's going on, and avoid the danger of missing out any vital asterisks. * The previous point also applies to references, so always put the `&` next to - the type rather than the variable, e.g. "void foo (const Thing& thing)". And + the type rather than the variable, e.g. `void foo (Thing const& thing)`. And don't put a space on both sides of the `*` or `&` - always put a space after it, but never before it. * The word `const` should be placed to the right of the thing that it modifies, @@ -58,14 +64,14 @@ means to write good code, in all languages, at all levels. ## Naming conventions -* Member variables and method names are written with camel-case, and never begin - with a capital letter. +* Member variables and method names are written with camel-case, and never + begin with a capital letter. * Class names are also written in camel-case, but always begin with a capital letter. * For global variables... well, you shouldn't have any, so it doesn't matter. -* Class data members begin with `m_`, static data members begin with `s_`. Global - variables begin with `g_`. This is so the scope of the corresponding declaration - can be easily determined. +* Class data members begin with `m_`, static data members begin with `s_`. + Global variables begin with `g_`. This is so the scope of the corresponding + declaration can be easily determined. * Avoid underscores in your names, especially leading or trailing underscores. In particular, leading underscores should be avoided, as these are often used in standard library code, so to use them in your own code looks quite jarring. @@ -73,38 +79,40 @@ means to write good code, in all languages, at all levels. with underscores to separate the words. And obviously make sure that its name is unlikely to clash with symbols used in other libraries or 3rd party code. -## Types, const-correctness, etc +## Types, const-correctness * If a method can (and should!) be const, make it const! * If a method definitely doesn't throw an exception (be careful!), mark it as `noexcept` -* When returning a temporary object, e.g. a String, the returned object should be - non-const, so that if the class has a C++11 move operator, it can be used. +* When returning a temporary object, e.g. a String, the returned object should + be non-const, so that if the class has a C++11 move operator, it can be used. * If a local variable can be const, then make it const! -* Remember that pointers can be const as well as primitives - for example, if you - have a char pointer whose contents are going to be altered, you may still be +* Remember that pointers can be const as well as primitives; For example, if + you have a `char*` whose contents are going to be altered, you may still be able to make the pointer itself const, e.g. `char* const foobar = getFoobar();`. * Do not declare all your local variables at the top of a function or method (i.e. in the old-fashioned C-style). Declare them at the last possible moment, and give them as small a scope as possible. -* Object parameters should be passed as const references wherever possible. Only - pass a parameter as a copy-by-value object if you really need to mutate a local - copy inside the method, and if making a local copy inside the method would be - difficult. -* Use portable `for()` loop variable scoping (i.e. do not have multiple for loops - in the same scope that each re-declare the same variable name, as this fails on - older compilers) -* When you're testing a pointer to see if it's null, never write `if (myPointer)`. - Always avoid that implicit cast-to-bool by writing it more fully: - `if (myPointer != nullptr)`. And likewise, never ever write `if (! myPointer)`, - instead always write `if (myPointer == null)`. It is more readable that way. +* Object parameters should be passed as `const&` wherever possible. Only + pass a parameter as a copy-by-value object if you really need to mutate + a local copy inside the method, and if making a local copy inside the method + would be difficult. +* Use portable `for()` loop variable scoping (i.e. do not have multiple for + loops in the same scope that each re-declare the same variable name, as + this fails on older compilers) +* When you're testing a pointer to see if it's null, never write + `if (myPointer)`. Always avoid that implicit cast-to-bool by writing it more + fully: `if (myPointer != nullptr)`. And likewise, never ever write + `if (! myPointer)`, instead always write `if (myPointer == nullptr)`. + It is more readable that way. * Avoid C-style casts except when converting between primitive numeric types. Some people would say "avoid C-style casts altogether", but `static_cast` is - a bit unreadable when you just want to cast an `int` to a `float`. But whenever - a pointer is involved, or a non-primitive object, always use `static_cast`. - And when you're reinterpreting data, always use `reinterpret_cast`. -* Until C++ gets a universal 64-bit primitive type (part of the C++11 standard), - it's best to stick to the int64 and uint64 typedefs. + a bit unreadable when you just want to cast an `int` to a `float`. But + whenever a pointer is involved, or a non-primitive object, always use + `static_cast`. And when you're reinterpreting data, always use + `reinterpret_cast`. +* Until C++ gets a universal 64-bit primitive type (part of the C++11 + standard), it's best to stick to the `int64` and `uint64` typedefs. ## Object lifetime and ownership @@ -116,14 +124,16 @@ means to write good code, in all languages, at all levels. allocated on the stack rather than the heap, then always do so. * Do not ever use `new` or `malloc` to allocate a C++ array. Always use a `HeapBlock` instead. -* ..and just to make it doubly clear: Never use `malloc` or `calloc`. +* And just to make it doubly clear: Never use `malloc` or `calloc`. * If a parent object needs to create and own some kind of child object, always - use composition as your first choice. If that's not possible (e.g. if the child - needs a pointer to the parent for its constructor), then use a `ScopedPointer`. + use composition as your first choice. If that's not possible (e.g. if the + child needs a pointer to the parent for its constructor), then use a + `ScopedPointer`. * If possible, pass an object as a reference rather than a pointer. If possible, - make it a const reference. -* Obviously avoid static and global values. Sometimes there's no alternative, but - if there is an alternative, then use it, no matter how much effort it involves. + make it a `const` reference. +* Obviously avoid static and global values. Sometimes there's no alternative, + but if there is an alternative, then use it, no matter how much effort it + involves. * If allocating a local POD structure (e.g. an operating-system structure in native code), and you need to initialise it with zeros, use the `= { 0 };` syntax as your first choice for doing this. If for some reason that's not @@ -132,16 +142,17 @@ means to write good code, in all languages, at all levels. ## Classes -* Declare a class's public section first, and put its constructors and destructor - first. Any protected items come next, and then private ones. -* Preferred - positioning for any inherited classes is to put them to the right of the class - name, vertically aligned, e.g.: - - class Thing : public Foo, - private Bar - { - } +* Declare a class's public section first, and put its constructors and + destructor first. Any protected items come next, and then private ones. +* Use the most restrictive access-specifier possible for each member. Prefer + `private` over `protected`, and `protected` over `public`. Don't expose + things unnecessarily. +* Preferred positioning for any inherited classes is to put them to the right + of the class name, vertically aligned, e.g.: + class Thing : public Foo, + private Bar + { + } * Put a class's member variables (which should almost always be private, of course), after all the public and protected method declarations. * Any private methods can go towards the end of the class, after the member @@ -164,16 +175,20 @@ means to write good code, in all languages, at all levels. ## Miscellaneous +* `goto` statements should not be used at all, even if the alternative is + more verbose code. The only exception is when implementing an algorithm in + a function as a state machine. * Don't use macros! OK, obviously there are many situations where they're the right tool for the job, but treat them as a last resort. Certainly don't ever use a macro just to hold a constant value or to perform any kind of function that could have been done as a real inline function. And it goes without saying that you should give them names which aren't going to clash with other code. - And #undef them after you've used them, if possible. -* When using the ++ or -- operators, never use post-increment if pre-increment - could be used instead. Although it doesn't matter for primitive types, it's good - practice to pre-increment since this can be much more efficient for more complex - objects. In particular, if you're writing a for loop, always use pre-increment, + And `#undef` them after you've used them, if possible. +* When using the `++` or `--` operators, never use post-increment if + pre-increment could be used instead. Although it doesn't matter for + primitive types, it's good practice to pre-increment since this can be + much more efficient for more complex objects. In particular, if you're + writing a for loop, always use pre-increment, e.g. `for (int = 0; i < 10; ++i)` * Never put an "else" statement after a "return"! This is well-explained in the LLVM coding standards...and a couple of other very good pieces of advice from @@ -181,16 +196,18 @@ means to write good code, in all languages, at all levels. * When getting a possibly-null pointer and using it only if it's non-null, limit the scope of the pointer as much as possible - e.g. Do NOT do this: - Foo* f = getFoo(); if (f != nullptr) f->doSomething(); - ...lots of code... - f->doSomething(); // oops! f may be null! + Foo* f = getFoo (); + if (f != nullptr) + f->doSomething (); + // other code + f->doSomething (); // oops! f may be null! ..instead, prefer to write it like this, which reduces the scope of the pointer, making it impossible to write code that accidentally uses a null pointer: - if (Foo* f = getFoo()) - f->doSomethingElse(); + if (Foo* f = getFoo ()) + f->doSomethingElse (); // f is out-of-scope here, so impossible to use it if it's null