* Coding Style for the Mono C# source code. * Class Libraries and Assembly Layout The class libraries are grouped together in the assemblies they belong. Each directory here represents an assembly, and inside each directory we divide the code based on the namespace they implement. In addition, each assembly directory contains a Test directory that holds the NUnit tests for that assembly. We use a new build system which is described by various README files in mcs/build The build process typically builds an assembly, but in some cases it also builds special versions of the assemblies intended to be used for testing. * Missing implementation bits If you implement a class and you are missing implementation bits, please use the attribute [MonoTODO]. This attribute can be used to programatically generate our status web pages: [MonoTODO("My Function is not available on Mono")] int MyFunction () { throw new NotImplementedException (); } Ideally, write a human description of the reason why there is a MonoTODO, this will be useful in the future for our automated tools that can assist in developers porting their code. * Tagging buggy code If there is a bug in your implementation tag the problem by using the word "FIXME" in the code, together with a description of the problem. Do not use XXX or obscure descriptions, because otherwise people will not be able to understand what you mean. * Tagging Problematic specs. If the documentation and the Microsoft implementation do differ (you wrote a test case to prove this), I suggest that you edit the file `mcs/class/doc/API-notes' so we can keep track of these problems and submit our comments to ECMA or Microsoft and seek clarification. Sometimes the documentation might be buggy, and sometimes the implementation might be buggy. Lets try to identify and pinpoint which one is the correct one. Sometimes the specification will be lame (consider Version.ToString (fieldCount) where there is no way of knowing how many fields are available, making the API not only stupid, but leading to unreliable code). In those cases, use the keyword "LAMESPEC". * Coding considerations and style. In order to keep the code consistent, please use the following conventions. From here on `good' and `bad' are used to attribute things that would make the coding style match, or not match. It is not a judgement call on your coding abilities, but more of a style and look call. Please try to follow these guidelines to ensure prettiness. Use 8 space tabs for writing your code (hopefully we can keep this consistent). If you are modifying someone else's code, try to keep the coding style similar. Since we are using 8-space tabs, you might want to consider the Linus Torvals trick to reduce code nesting. Many times in a loop, you will find yourself doing a test, and if the test is true, you will nest. Many times this can be changed. Example: for (i = 0; i < 10; i++) { if (something (i)) { do_more (); } } This take precious space, instead write it like this: for (i = 0; i < 10; i++) { if (!something (i)) continue; do_more (); } * Performance and readability It is more important to be correct than to be fast. It is more important to be maintainable than to be fast. Fast code that is difficult to maintain is likely going to be looked down upon. * Style Guidelines * Use a space before an opening parenthesis when calling functions, or indexing, like this: method (a); b [10]; * Do not put a space after the opening parenthesis and the closing one, ie: good: method (a); array [10]; bad: method ( a ); array[ 10 ]; * Inside a code block, put the opening brace on the same line as the statement: good: if (a) { code (); code (); } bad: if (a) { code (); code (); } * Avoid using unecessary open/close braces, vertical space is usually limited: good: if (a) code (); bad: if (a) { code (); } * When defining a method, use the C style for brace placement, that means, use a new line for the brace, like this: good: void Method () { } bad: void Method () { } * Properties and indexers are an exception, keep the brace on the same line as the property declaration. Rationale: this makes it visually simple to distinguish them. good: int Property { get { return value; } } bad: int Property { get { return value; } } Notice how the accessor "get" also keeps its brace on the same line. For very small properties, you can compress things: ok: int Property { get { return value; } set { x = value; } } * Use white space in expressions liberally, except in the presence of parenthesis: good: if (a + 5 > method (blah () + 4)) bad: if (a+5>method(blah()+4)) * For any new files, please use a descriptive introduction, like this: // // System.Comment.cs: Handles comments in System files. // // Author: // Juan Perez (juan@address.com) // // (C) 2002 Address, Inc (http://www.address.com) // * If you are modyfing someone else's code, and your contribution is significant, please add yourself to the Authors list. * Switch statements have the case at the same indentation as the switch: switch (x) { case 'a': ... case 'b': ... } * Argument names should use the camel casing for identifiers, like this: good: void Method (string myArgument) bad: void Method (string lpstrArgument) void Method (string my_string) * Empty methods: They should have the body of code using two lines, in consistency with the rest: good: void EmptyMethod () { } bad: void EmptyMethod () {} void EmptyMethod () {} * Line length: The line length for C# source code is 134 columns. If your function declaration arguments go beyond this point, please align your arguments to match the opening brace, like this: void Function (int arg, string argb, int argc) { } When invoking functions, the rule is different, the arguments are not aligned with the previous argument, instead they begin at the tabbed position, like this: void M () { MethodCall ("Very long string that will force", "Next argument on the 8-tab pos", "Just like this one") } * Variable declaration indentation. Sometimes it is convenient to indent the variables to make the code look pretier, but do not add gratuitous space, try to use the minimally necessary space, for example: Good: void Method () { string b; int a; byte c; } Bad: void Method () { string b; int a; byte c; } * Braces and the `else' clause If there are braces closing or opening next to the else clause, they go on the same line as the word `else', for example: Good: if (..) { } else { } Bad: if (..) { } else { } Bad: if (..) { } else { } Bad: if (..) { } else { } * RCS and CVS tags Some users like to use the special RCS/CVS tags in their source code: $id$, $log$ and so on. The use of these is not permitted on the Mono source code repository. This metadata belongs on a ChangeLog or in the SVN metadata. * File formats Historically our repository has used a mix of line-endings, this is a mistake that we are trying hard to fix. For existing files, please make sure that you do not convert the file, as that causes us to loose precious history (the full file is commited). For new files that you create, please make sure that you use Subversion's support for mapping the line endings automatically, after adding your file: $ svn add file.cs Execute this command: $ svn propset svn:eol-style native file.cs Which will make the file automatically receive the proper treatment from that point on. Please verify before commiting that your changes wont loose history, you can do this by running: $ svn diff And examining the output. * Warnings Avoid commiting code with warnings to the repository, the use of #pragmas to disable warnings is strongly discouraged, but can be used on unique cases. Please justify the use of the warning ignore clause on a comment. Do not commit changes to the Makefiles that removes warnings, if anything warnings should be eliminated one at a time, and if not possible, they must be flagged. * Examples: class X : Y { bool Method (int argument_1, int argument_2) { if (argument_1 == argument_2) throw new Exception (Locale.GetText ("They are equal!"); if (argument_1 < argument_2) { if (argument_1 * 3 > 4) return true; else return false; } // // This sample helps keep your sanity while using 8-spaces for tabs // VeryLongIdentifierWhichTakesManyArguments ( Argument1, Argument2, Argument3, NestedCallHere ( MoreNested)); } bool MyProperty { get { return x; } set { x = value; } } void AnotherMethod () { if ((a + 5) != 4) { } while (blah) { if (a) continue; b++; } } } * Conditional compilation Ideally we would not need conditional compilation, and the use of #ifdef is strongly discouraged. But due to our support for old C# 1.0 compilers we have to use it in a few places. Try to avoid negative tests that have an else clause, for example: #if !NET_2_0 CODE_FOR_1_0 #else CODE_FOR_2_0 #endif Instead use: #if NET_2_0 CODE_FOR_2_0 #else CODE_FOR_1_0 #endif When a major feature differs across compilation targets, try to factor out the code into a separate class, a helper class or a separate file, and include that in your profile while surrounding that helper file/class with the ifdefs to reduce the amount of ifdefs in the code. For instance, this is used for some parts of Grasshopper where the code is ifdefed out, when large parts of a file would have been ifdefed out, we moved the code into a MyOtherFile.jvm.cs For 2.0 classes, this is even simpler as code can be trivially factored out into MyHelperClass.cli.cs MyHelperClass.jvm.cs By using partial classes.