\input texinfo @c -*-texinfo-*- @c %**start of header @c oooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooo @c o @c GNAT DOCUMENTATION o @c o @c G N A T C O D I N G S T Y L E o @c o @c Copyright (C) 1992-2012, AdaCore o @c o @c oooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooo @setfilename gnat-style.info @copying Copyright @copyright{} 1992-2012, AdaCore Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.3 or any later version published by the Free Software Foundation; with no Invariant Sections, with no Front-Cover Texts and with no Back-Cover Texts. A copy of the license is included in the section entitled ``GNU Free Documentation License''. @end copying @settitle GNAT Coding Style @setchapternewpage odd @include gcc-common.texi @dircategory Software development @direntry * gnat-style: (gnat-style). GNAT Coding Style @end direntry @macro syntax{element} @t{\element\} @end macro @c %**end of header @titlepage @titlefont{GNAT Coding Style:} @sp 1 @title @hfill A Guide for GNAT Developers @subtitle GNAT, The GNU Ada Compiler @versionsubtitle @author Ada Core Technologies, Inc. @page @vskip 0pt plus 1filll @insertcopying @end titlepage @raisesections @node Top, General, , (dir) @comment node-name, next, previous, up @ifnottex @noindent GNAT Coding Style@* A Guide for GNAT Developers @sp 2 @noindent GNAT, The GNU Ada Compiler@* @noindent @insertcopying @end ifnottex @menu * General:: * Lexical Elements:: * Declarations and Types:: * Expressions and Names:: * Statements:: * Subprograms:: * Packages:: * Program Structure:: * GNU Free Documentation License:: * Index:: @end menu @c ------------------------------------------------------------------------- @node General, Lexical Elements, Top, Top @section General @c ------------------------------------------------------------------------- @noindent Most of GNAT is written in Ada using a consistent style to ensure readability of the code. This document has been written to help maintain this consistent style, while having a large group of developers work on the compiler. For the coding style in the C parts of the compiler and run time, see the GNU Coding Guidelines. This document is structured after the @cite{Ada Reference Manual}. Those familiar with that document should be able to quickly lookup style rules for particular constructs. @c ------------------------------------------------------------------------- @node Lexical Elements, Declarations and Types, General, Top @section Lexical Elements @c ------------------------------------------------------------------------- @cindex Lexical elements @subsection Character Set and Separators @c ------------------------------------------------------------------------- @cindex Character set @cindex ASCII @cindex Separators @cindex End-of-line @cindex Line length @cindex Indentation @itemize @bullet @item The character set used should be plain 7-bit ASCII@. The only separators allowed are space and the end-of-line sequence. No other control character or format effector (such as @code{HT}, @code{VT}, @code{FF}) should be used. The normal end-of-line sequence is used, which may be @code{LF}, @code{CR/LF} or @code{CR}, depending on the host system. An optional @code{SUB} (@code{16#1A#}) may be present as the last character in the file on hosts using that character as file terminator. @item Files that are checked in or distributed should be in host format. @item A line should never be longer than 79 characters, not counting the line separator. @item Lines must not have trailing blanks. @item Indentation is 3 characters per level for @code{if} statements, loops, and @code{case} statements. For exact information on required spacing between lexical elements, see file @file{style.adb}. @cindex @file{style.adb} file @end itemize @subsection Identifiers @c ------------------------------------------------------------------------- @itemize @bullet @cindex Identifiers @item Identifiers will start with an upper case letter, and each letter following an underscore will be upper case. @cindex Casing (for identifiers) Short acronyms may be all upper case. All other letters are lower case. An exception is for identifiers matching a foreign language. In particular, we use all lower case where appropriate for C@. @item Use underscores to separate words in an identifier. @cindex Underscores @item Try to limit your use of abbreviations in identifiers. It is ok to make a few abbreviations, explain what they mean, and then use them frequently, but don't use lots of obscure abbreviations. An example is the @code{ALI} word which stands for Ada Library Information and is by convention always written in upper-case when used in entity names. @smallexample @c adanocomment procedure Find_ALI_Files; @end smallexample @item Don't use the variable name @code{I}, use @code{J} instead; @code{I} is too easily confused with @code{1} in some fonts. Similarly don't use the variable @code{O}, which is too easily mistaken for the number @code{0}. @end itemize @subsection Numeric Literals @c ------------------------------------------------------------------------- @cindex Numeric literals @itemize @bullet @item Numeric literals should include underscores where helpful for readability. @cindex Underscores @smallexample 1_000_000 16#8000_0000# 3.14159_26535_89793_23846 @end smallexample @end itemize @subsection Reserved Words @c ------------------------------------------------------------------------- @cindex Reserved words @itemize @bullet @item Reserved words use all lower case. @cindex Casing (for reserved words) @smallexample @c adanocomment return else @end smallexample @item The words @code{Access}, @code{Delta} and @code{Digits} are capitalized when used as @syntax{attribute_designator}. @end itemize @subsection Comments @c ------------------------------------------------------------------------- @cindex Comments @itemize @bullet @item A comment starts with @code{--} followed by two spaces. The only exception to this rule (i.e.@: one space is tolerated) is when the comment ends with a single space followed by @code{--}. It is also acceptable to have only one space between @code{--} and the start of the comment when the comment is at the end of a line, after some Ada code. @item Every sentence in a comment should start with an upper-case letter (including the first letter of the comment). @cindex Casing (in comments) @item When declarations are commented with ``hanging'' comments, i.e.@: comments after the declaration, there is no blank line before the comment, and if it is absolutely necessary to have blank lines within the comments, e.g. to make paragraph separations within a single comment, these blank lines @emph{do} have a @code{--} (unlike the normal rule, which is to use entirely blank lines for separating comment paragraphs). The comment starts at same level of indentation as code it is commenting. @cindex Blank lines (in comments) @cindex Indentation @smallexample @c adanocomment z : Integer; -- Integer value for storing value of z -- -- The previous line was a blank line. @end smallexample @item Comments that are dubious or incomplete, or that comment on possibly wrong or incomplete code, should be preceded or followed by @code{???}@. @item Comments in a subprogram body must generally be surrounded by blank lines. An exception is a comment that follows a line containing a single keyword (@code{begin}, @code{else}, @code{loop}): @smallexample @c adanocomment @group begin -- Comment for the next statement A := 5; -- Comment for the B statement B := 6; end; @end group @end smallexample @item In sequences of statements, comments at the end of the lines should be aligned. @cindex Alignment (in comments) @smallexample @c adanocomment My_Identifier := 5; -- First comment Other_Id := 6; -- Second comment @end smallexample @item Short comments that fit on a single line are @emph{not} ended with a period. Comments taking more than a line are punctuated in the normal manner. @item Comments should focus on @emph{why} instead of @emph{what}. Descriptions of what subprograms do go with the specification. @item Comments describing a subprogram spec should specifically mention the formal argument names. General rule: write a comment that does not depend on the names of things. The names are supplementary, not sufficient, as comments. @item @emph{Do not} put two spaces after periods in comments. @end itemize @c ------------------------------------------------------------------------- @node Declarations and Types, Expressions and Names, Lexical Elements,Top @section Declarations and Types @c ------------------------------------------------------------------------- @cindex Declarations and Types @itemize @bullet @item In entity declarations, colons must be surrounded by spaces. Colons should be aligned. @cindex Alignment (in declarations) @smallexample @c adanocomment Entity1 : Integer; My_Entity : Integer; @end smallexample @item Declarations should be grouped in a logical order. Related groups of declarations may be preceded by a header comment. @item All local subprograms in a subprogram or package body should be declared before the first local subprogram body. @item Do not declare local entities that hide global entities. @cindex Hiding of outer entities @item Do not declare multiple variables in one declaration that spans lines. Start a new declaration on each line, instead. @item The @syntax{defining_identifier}s of global declarations serve as comments of a sort. So don't choose terse names, but look for names that give useful information instead. @item Local names can be shorter, because they are used only within one context, where comments explain their purpose. @item When starting an initialization or default expression on the line that follows the declaration line, use 2 characters for indentation. @smallexample @c adanocomment Entity1 : Integer := Function_Name (Parameters, For_Call); @end smallexample @item If an initialization or default expression needs to be continued on subsequent lines, the continuations should be indented from the start of the expression. @smallexample @c adanocomment Entity1 : Integer := Long_Function_Name (parameters for call); @end smallexample @end itemize @c ------------------------------------------------------------------------- @node Expressions and Names, Statements, Declarations and Types, Top @section Expressions and Names @c ------------------------------------------------------------------------- @cindex Expressions and names @itemize @bullet @item Every operator must be surrounded by spaces. An exception is that this rule does not apply to the exponentiation operator, for which there are no specific layout rules. The reason for this exception is that sometimes it makes clearer reading to leave out the spaces around exponentiation. @cindex Operators @smallexample @c adanocomment E := A * B**2 + 3 * (C - D); @end smallexample @item Use parentheses where they clarify the intended association of operands with operators: @cindex Parenthesization of expressions @smallexample @c adanocomment (A / B) * C @end smallexample @end itemize @c ------------------------------------------------------------------------- @node Statements, Subprograms, Expressions and Names, Top @section Statements @c ------------------------------------------------------------------------- @cindex Statements @subsection Simple and Compound Statements @c ------------------------------------------------------------------------- @cindex Simple and compound statements @itemize @bullet @item Use only one statement or label per line. @item A longer @syntax{sequence_of_statements} may be divided in logical groups or separated from surrounding code using a blank line. @end itemize @subsection If Statements @c ------------------------------------------------------------------------- @cindex @code{if} statement @itemize @bullet @item When the @code{if}, @code{elsif} or @code{else} keywords fit on the same line with the condition and the @code{then} keyword, then the statement is formatted as follows: @cindex Alignment (in an @code{if} statement) @smallexample @c adanocomment @group if @var{condition} then ... elsif @var{condition} then ... else ... end if; @end group @end smallexample @noindent When the above layout is not possible, @code{then} should be aligned with @code{if}, and conditions should preferably be split before an @code{and} or @code{or} keyword a follows: @smallexample @c adanocomment @group if @var{long_condition_that_has_to_be_split} and then @var{continued_on_the_next_line} then ... end if; @end group @end smallexample @noindent The @code{elsif}, @code{else} and @code{end if} always line up with the @code{if} keyword. The preferred location for splitting the line is before @code{and} or @code{or}. The continuation of a condition is indented with two spaces or as many as needed to make nesting clear. As an exception, if conditions are closely related either of the following is allowed: @smallexample @group if x = lakdsjfhlkashfdlkflkdsalkhfsalkdhflkjdsahf or else x = asldkjhalkdsjfhhfd or else x = asdfadsfadsf then ... end if; @end group @group if x = lakdsjfhlkashfdlkflkdsalkhfsalkdhflkjdsahf or else x = asldkjhalkdsjfhhfd or else x = asdfadsfadsf then ... end if; @end group @end smallexample @item Conditions should use short-circuit forms (@code{and then}, @code{or else}), except when the operands are boolean variables or boolean constants. @cindex Short-circuit forms @item Complex conditions in @code{if} statements are indented two characters: @cindex Indentation (in @code{if} statements) @smallexample @c adanocomment @group if @var{this_complex_condition} and then @var{that_other_one} and then @var{one_last_one} then ... end if; @end group @end smallexample @noindent There are some cases where complex conditionals can be laid out in manners that do not follow these rules to preserve better parallelism between branches, e.g. @smallexample @c adanocomment @group if xyz.abc (gef) = 'c' or else xyz.abc (gef) = 'x' then ... end if; @end group @end smallexample @item Every @code{if} block is preceded and followed by a blank line, except where it begins or ends a @syntax{sequence_of_statements}. @cindex Blank lines (in an @code{if} statement) @smallexample @c adanocomment @group A := 5; if A = 5 then null; end if; A := 6; @end group @end smallexample @end itemize @subsection Case Statements @cindex @code{case} statements @itemize @bullet @item Layout is as below. For long @code{case} statements, the extra indentation can be saved by aligning the @code{when} clauses with the opening @code{case}. @smallexample @c adanocomment @group case @var{expression} is when @var{condition} => ... when @var{condition} => ... end case; @end group @end smallexample @end itemize @subsection Loop Statements @cindex Loop statements @itemize @bullet @noindent When possible, have @code{for} or @code{while} on one line with the condition and the @code{loop} keyword. @smallexample @c adanocomment @group for J in S'Range loop ... end loop; @end group @end smallexample @noindent If the condition is too long, split the condition (see ``If statements'' above) and align @code{loop} with the @code{for} or @code{while} keyword. @cindex Alignment (in a loop statement) @smallexample @c adanocomment @group while @var{long_condition_that_has_to_be_split} and then @var{continued_on_the_next_line} loop ... end loop; @end group @end smallexample @noindent If the @syntax{loop_statement} has an identifier, it is laid out as follows: @smallexample @c adanocomment @group Outer : while not @var{condition} loop ... end Outer; @end group @end smallexample @end itemize @subsection Block Statements @cindex Block statement @itemize @bullet @item The @code{declare} (optional), @code{begin} and @code{end} words are aligned, except when the @syntax{block_statement} is named. There is a blank line before the @code{begin} keyword: @cindex Alignment (in a block statement) @smallexample @c adanocomment @group Some_Block : declare ... begin ... end Some_Block; @end group @end smallexample @end itemize @c ------------------------------------------------------------------------- @node Subprograms, Packages, Statements, Top @section Subprograms @c ------------------------------------------------------------------------- @cindex Subprograms @subsection Subprogram Declarations @c ------------------------------------------------------------------------- @itemize @bullet @item Do not write the @code{in} for parameters. @smallexample @c adanocomment function Length (S : String) return Integer; @end smallexample @item When the declaration line for a procedure or a function is too long to fit the entire declaration (including the keyword procedure or function) on a single line, then fold it, putting a single parameter on a line, aligning the colons, as in: @smallexample @c adanocomment @group procedure Set_Heading (Source : String; Count : Natural; Pad : Character := Space; Fill : Boolean := True); @end group @end smallexample @noindent In the case of a function, if the entire spec does not fit on one line, then the return may appear after the last parameter, as in: @smallexample @c adanocomment @group function Head (Source : String; Count : Natural; Pad : Character := Space) return String; @end group @end smallexample @noindent Or it may appear on its own as a separate line. This form is preferred when putting the return on the same line as the last parameter would result in an overlong line. The return type may optionally be aligned with the types of the parameters (usually we do this aligning if it results only in a small number of extra spaces, and otherwise we don't attempt to align). So two alternative forms for the above spec are: @smallexample @c adanocomment @group function Head (Source : String; Count : Natural; Pad : Character := Space) return String; function Head (Source : String; Count : Natural; Pad : Character := Space) return String; @end group @end smallexample @end itemize @subsection Subprogram Bodies @c ------------------------------------------------------------------------- @cindex Subprogram bodies @itemize @bullet @item Function and procedure bodies should usually be sorted alphabetically. Do not attempt to sort them in some logical order by functionality. For a sequence of subprogram specs, a general alphabetical sorting is also usually appropriate, but occasionally it makes sense to group by major function, with appropriate headers. @item All subprograms have a header giving the function name, with the following format: @smallexample @c adanocomment @group ----------------- -- My_Function -- ----------------- procedure My_Function is begin ... end My_Function; @end group @end smallexample @noindent Note that the name in the header is preceded by a single space, not two spaces as for other comments. These headers are used on nested subprograms as well as outer level subprograms. They may also be used as headers for sections of comments, or collections of declarations that are related. @item Every subprogram body must have a preceding @syntax{subprogram_declaration}, which includes proper client documentation so that you do not need to read the subprogram body in order to understand what the subprogram does and how to call it. All subprograms should be documented, without exceptions. @item @cindex Blank lines (in subprogram bodies) A sequence of declarations may optionally be separated from the following begin by a blank line. Just as we optionally allow blank lines in general between declarations, this blank line should be present only if it improves readability. Generally we avoid this blank line if the declarative part is small (one or two lines) and the body has no blank lines, and we include it if the declarative part is long or if the body has blank lines. @item If the declarations in a subprogram contain at least one nested subprogram body, then just before the @code{begin} of the enclosing subprogram, there is a comment line and a blank line: @smallexample @c adanocomment @group -- Start of processing for @var{Enclosing_Subprogram} begin ... end @var{Enclosing_Subprogram}; @end group @end smallexample @item When nested subprograms are present, variables that are referenced by any nested subprogram should precede the nested subprogram specs. For variables that are not referenced by nested procedures, the declarations can either also be before any of the nested subprogram specs (this is the old style, more generally used). Or then can come just before the begin, with a header. The following example shows the two possible styles: @smallexample @c adanocomment @group procedure Style1 is Var_Referenced_In_Nested : Integer; Var_Referenced_Only_In_Style1 : Integer; proc Nested; -- Comments ... ------------ -- Nested -- ------------ procedure Nested is begin ... end Nested; -- Start of processing for Style1 begin ... end Style1; @end group @group procedure Style2 is Var_Referenced_In_Nested : Integer; proc Nested; -- Comments ... ------------ -- Nested -- ------------ procedure Nested is begin ... end Nested; -- Local variables Var_Referenced_Only_In_Style2 : Integer; -- Start of processing for Style2 begin ... end Style2; @end group @end smallexample @noindent For new code, we generally prefer Style2, but we do not insist on modifying all legacy occurrences of Style1, which is still much more common in the sources. @end itemize @c ------------------------------------------------------------------------- @node Packages, Program Structure, Subprograms, Top @section Packages and Visibility Rules @c ------------------------------------------------------------------------- @cindex Packages @itemize @bullet @item All program units and subprograms have their name at the end: @smallexample @c adanocomment @group package P is ... end P; @end group @end smallexample @item We will use the style of @code{use}-ing @code{with}-ed packages, with the context clauses looking like: @cindex @code{use} clauses @smallexample @c adanocomment @group with A; use A; with B; use B; @end group @end smallexample @item Names declared in the visible part of packages should be unique, to prevent name clashes when the packages are @code{use}d. @cindex Name clash avoidance @smallexample @c adanocomment @group package Entity is type Entity_Kind is ...; ... end Entity; @end group @end smallexample @item After the file header comment, the context clause and unit specification should be the first thing in a @syntax{program_unit}. @item Preelaborate, Pure and Elaborate_Body pragmas should be added right after the package name, indented an extra level and using the parameterless form: @smallexample @c adanocomment @group package Preelaborate_Package is pragma Preelaborate; ... end Preelaborate_Package; @end group @end smallexample @end itemize @c ------------------------------------------------------------------------- @node Program Structure, GNU Free Documentation License, Packages, Top @section Program Structure and Compilation Issues @c ------------------------------------------------------------------------- @cindex Program structure @itemize @bullet @item Every GNAT source file must be compiled with the @option{-gnatg} switch to check the coding style. (Note that you should look at @file{style.adb} to see the lexical rules enforced by @option{-gnatg}). @cindex @option{-gnatg} option (to gcc) @cindex @file{style.adb} file @item Each source file should contain only one compilation unit. @item Filenames should be 8 or fewer characters, followed by the @code{.adb} extension for a body or @code{.ads} for a spec. @cindex File name length @item Unit names should be distinct when ``krunch''ed to 8 characters (see @file{krunch.ads}) and the filenames should match the unit name, except that they are all lower case. @cindex @file{krunch.ads} file @end itemize @c ********************************** @c * GNU Free Documentation License * @c ********************************** @include fdl.texi @c GNU Free Documentation License @cindex GNU Free Documentation License @node Index,,GNU Free Documentation License, Top @unnumberedsec Index @printindex cp @contents @bye