@Part(02, Root="ada.mss") @Comment{$Date: 2020/12/05 05:10:40 $} @LabeledSection{Lexical Elements} @Comment{$Source: e:\\cvsroot/ARM/Source/02.mss,v $} @Comment{$Revision: 1.96 $} @begin{Intro} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0299-1]} @redundant[The text of a program consists of the texts of one or more @nts. The text of a @nt is a sequence of lexical elements, each composed of characters; the rules of composition are given in this @Chg{Version=[3],New=[clause],Old=[section]}. @nt{Pragma}s, which provide certain information for the compiler, are also described in this @Chg{Version=[3],New=[clause],Old=[section]}.] @end{Intro} @LabeledClause{Character Set} @begin{Intro} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01],ARef=[AI95-00395-01]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0266-1]} @ChgRef{Version=[5],Kind=[Revised],ARef=[AI12-0263-1]} @Defn{character set} The @Chg{Version=[2],New=[character repertoire for the text of an Ada program consists of the entire coding space described by the ISO/IEC 10646:@Chg{Version=[3],New=[@Chg{Version=[5],New=[2017],Old=[2011]}],Old=[2003]} Universal @Chg{Version=[5],New=[],Old=[Multiple-Octet ]}Coded Character Set. This coding space is organized in @i, each plane comprising 65536 characters.@Defn2{Term=[plane],Sec=[character]} @Defn{character plane}],Old=[only characters allowed outside of @nt{comment}s are the @nt{graphic_character}s and @ntf{format_effector}s.]} @begin{Ramification} @ChgRef{Version=[2],Kind=[Deleted],ARef=[AI95-00285-01]} @ChgDeleted{Version=[2],Text=[Any character, including an @ntf, is allowed in a comment.]} @ChgRef{Version=[2],Kind=[Deleted],ARef=[AI95-00285-01]}@ChgNote{Moved below} @ChgDeleted{Version=[2],Text=[Note that this rule doesn't really have much force, since the implementation can represent characters in the source in any way it sees fit. For example, an implementation could simply define that what seems to be a nongraphic, non-format-effector character is actually a representation of the space character.]} @end{Ramification} @begin(Discussion) @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0266-1]} @ChgRef{Version=[5],Kind=[Revised],ARef=[AI12-0263-1]} It is our intent to follow the terminology of @Chg{Version=[2],New=[ISO/IEC 10646:@Chg{Version=[3],New=[@Chg{Version=[5],New=[2017],Old=[2011]}],Old=[2003]}],Old=[ISO 10646 BMP]} where appropriate, and to remain compatible with the character classifications defined in @RefSec{Character Handling}.@Chg{Version=[2], New=[],Old=[Note that our definition for @nt is more inclusive than that of ISO 10646-1.]} @end(Discussion) @end{Intro} @begin{Syntax} @begin{NotIso} @ChgAdded{Version=[2],Noparanum=[T],Text=[@Shrink{@i}]}@Comment{This message should be deleted if the paragraphs are ever renumbered.} @end{NotIso} @ChgRef{Version=[2],Kind=[DeletedNoDelMsg],ARef=[AI95-00285-01]} @DeletedSyn{Version=[2],lhs=<@Chg{Version=[2],New=<>,Old=}>, rhs="@Chg{Version=[2],New=<>,Old=<@Syn2{graphic_character} | @Synf{format_effector} | @Synf{other_control_function}>}"} @ChgRef{Version=[2],Kind=[DeletedNoDelMsg],ARef=[AI95-00285-01]} @DeletedSyn{Version=[2],lhs=<@Chg{Version=[2],New=<>,Old=}>, rhs="@Chg{Version=[2],New=<>,Old=<@Synf{identifier_letter} | @Synf{digit} | @Synf{space_character} | @Synf{special_character}>}"} @begin{SyntaxText} @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01],ARef=[AI95-00395-01]} @ChgRef{Version=[3],Kind=[RevisedAdded],ARef=[AI05-0266-1]} @ChgRef{Version=[5],Kind=[RevisedAdded],ARef=[AI12-0263-1]} @ChgAdded{Version=[2],Text=[A @ntf{character} is defined by this International Standard for each cell in the coding space described by ISO/IEC 10646:@Chg{Version=[3],New=[@Chg{Version=[5],New=[2017],Old=[2011]}],Old=[2003]}, regardless of whether or not ISO/IEC 10646:@Chg{Version=[3],New=[@Chg{Version=[5],New=[2017],Old=[2011]}],Old=[2003]} allocates a character to that cell.]} @end{SyntaxText} @end{Syntax} @begin{StaticSem} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01],ARef=[AI95-00395-01]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0079-1],ARef=[AI05-0262-1],ARef=[AI05-0266-1]} @ChgRef{Version=[5],Kind=[Revised],ARef=[AI12-0263-1]} The@Chg{Version=[2],New=[],Old=[ character repertoire for the text of an Ada program consists of the collection of characters @Chg{Version=[2],New=[described by the ISO/IEC 10646:@Chg{Version=[3],New=[@Chg{Version=[5],New=[2017],Old=[2011]}],Old=[2003]}], Old=[called the Basic Multilingual Plane (BMP) of the ISO 10646]} Universal Multiple-Octet Coded Character Set, plus a set of @ntfs and, in comments only, a set of @ntfs; the]} coded representation for @Chg{Version=[2],New=[],Old=[these ]}characters is implementation defined @Redundant[(it need not be a representation defined within @Chg{Version=[2],New=[ISO/IEC 10646:@Chg{Version=[3],New=[@Chg{Version=[5],New=[2017],Old=[2011]}],Old=[2003]}], Old=[ISO-10646-1]})].@Chg{Version=[2],New=[ A character whose relative code @Chg{Version=[3],New=[point],Old=[position]} in its plane is 16#FFFE# or 16#FFFF# is not allowed anywhere in the text of a program.],Old=[]}@Chg{Version=[3],New=[ The only characters allowed outside of comments are those in categories @ntf{other_format}, @ntf{format_effector}, and @ntf{graphic_character}.],Old=[]} @ImplDef{The coded representation for the text of an Ada program.} @begin{Ramification}@ChgNote{Moved from above} @ChgRef{Version=[2],Kind=[AddedNormal],ARef=[AI95-00285-01]} @ChgAdded{Version=[2],Text=[Note that this rule doesn't really have much force, since the implementation can represent characters in the source in any way it sees fit. For example, an implementation could simply define that what seems to be an @ntf{other_private_use} character is actually a representation of the space character.]} @end{Ramification} @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01]} @ChgRef{Version=[3],Kind=[RevisedAdded],ARef=[AI05-0266-1],ARef=[AI05-0299-1]} @ChgRef{Version=[5],Kind=[RevisedAdded],ARef=[AI12-0004-1],ARef=[AI12-0263-1]} @ChgAdded{Version=[2],Text=[The semantics of an Ada program whose text is not in Normalization Form @Chg{Version=[5],New=[C],Old=[KC]} (as defined by @Chg{Version=[3],New=[Clause 21],Old=[section 24]} of ISO/IEC 10646:@Chg{Version=[3],New=[@Chg{Version=[5],New=[2017],Old=[2011]}],Old=[2003]}) is implementation defined.]} @ChgImplDef{Version=[5],Kind=[AddedNormal],InitialVersion=[2], Text=[@ChgAdded{Version=[2],Text=[The semantics of an Ada program whose text is not in Normalization Form @Chg{Version=[5],New=[C],Old=[KC]}.]}]} @begin{Ramification} @ChgRef{Version=[5],Kind=[AddedNormal],ARef=[AI12-0004-1]} @ChgAdded{Version=[5],Text=[In particular, an implementation can reject such program source. It is easy during lexical analysis to reject source that contains any code point not present in Normalization Form C. Portable programs should always be encoded in Normalization Form C.]} @end{Ramification} @begin{Reason} @ChgRef{Version=[5],Kind=[AddedNormal],ARef=[AI12-0004-1]} @ChgAdded{Version=[5],Text=[Normalization Form C ensures that all source is in a unique format; it eliminates ambiguities and security issues potentially caused by source using unusual sequences of characters. Note that WC3 (the Internet standards group) recommends that all Internet content be in Normalization Form C. We don't require this as there is a potentially significant cost to checking this (just rejecting unallowed code points is not enough), and some implementations may need to be interoperable with tools that produce unnormalized text.]} @end{Reason} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0266-1],ARef=[AI05-0299-1]} @ChgRef{Version=[5],Kind=[Revised],ARef=[AI12-0263-1]} The description of the language definition in this International Standard uses the @Chg{Version=[2], New=[character properties General Category, Simple Uppercase Mapping, Uppercase Mapping, and Special Case Condition of the documents referenced by @Chg{Version=[5],New=[],Old=[the note in ]}@Chg{Version=[3],New=[Clause],Old=[section]} @Chg{Version=[5],New=[2],Old=[1]} of ISO/IEC 10646:@Chg{Version=[3],New=[@Chg{Version=[5],New=[2017],Old=[2011]}],Old=[2003]}],Old=[graphic symbols defined for Row 00: Basic Latin and Row 00: Latin-1 Supplement of the ISO 10646 BMP; these correspond to the graphic symbols of ISO 8859-1 (Latin-1); no graphic symbols are used in this International Standard for characters outside of Row 00 of the BMP]}. The actual set of graphic symbols used by an implementation for the visual representation of the text of an Ada program is not specified. @PDefn{unspecified} @begin{Discussion} @ChgRef{Version=[5],Kind=[AddedNormal],ARef=[AI12-0263-1]} @ChgAdded{Version=[5],Text=[The @ldquote@;documents referenced@rdquote means Unicode, Chapter 4. See the Discussion after the the character categorization definition for a source for machine-readable definitions of these properties.]} @end{Discussion} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0266-1]} @Leading@keepnext@;@Chg{Version=[2],New=[Characters],Old=[The categories of characters]} are @Chg{Version=[2],New=[categorized],Old=[defined]} as follows: @begin{Discussion} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0005-1],ARef=[AI05-0262-1],ARef=[AI05-0266-1]} @ChgRef{Version=[5],Kind=[Revised],ARef=[AI12-0263-1]} @ChgAdded{Version=[2],Text=[Our character classification considers that the cells not allocated in ISO/IEC 10646:@Chg{Version=[3],New=[@Chg{Version=[5],New=[2017],Old=[2011]}],Old=[2003]} are graphic characters, except for those whose relative code @Chg{Version=[3],New=[point],Old=[position]} in their plane is 16#FFFE# or 16#FFFF#. This seems to provide the best compatibility with future versions of ISO/IEC 10646, as future characters can @Chg{Version=[3],New=[],Old=[be ]}already be used in Ada character and string literals.]} @end{Discussion} @begin{Description} @ChgRef{Version=[2],Kind=[Deleted],ARef=[AI95-00285-01]} @ChgDeleted{Version=[2],Text=[@Defn{identifier_letter}@ntf@\@ntf{upper_case_identifier_letter} | @ntf{lower_case_identifier_letter}]} @begin{Discussion} @ChgRef{Version=[2],Kind=[DeletedNoDelMsg]} @ChgDeleted{Version=[2],Text=[We use @ntf instead of simply @ntf because ISO 10646 BMP includes many other characters that would generally be considered "letters."]} @end{Discussion} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} @Chg{Version=[2],New=[@Defn{letter_uppercase}@ntf{letter_uppercase}], Old=[@Defn{upper_case_identifier_letter}@ntf]}@\Any character @Chg{Version=[2],New=[whose General Category is defined to be @lquotes@;Letter, Uppercase@rquotes@;], Old=[of Row 00 of ISO 10646 BMP whose name begins @lquotes@;Latin Capital Letter@rquotes@;]}. @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} @Chg{Version=[2],New=[@Defn{letter_lowercase}@ntf{letter_lowercase}], Old=[@Defn{lower_case_identifier_letter}@ntf]}@\Any character @Chg{Version=[2],New=[whose General Category is defined to be @lquotes@;Letter, Lowercase@rquotes@;], Old=[of Row 00 of ISO 10646 BMP whose name begins @lquotes@;Latin Small Letter@rquotes@;]}. @begin{Honest} @ChgRef{Version=[1],Kind=[Deleted],Ref=[8652/0001],ARef=[AI95-00124-01]} @Comment{The change in subclause 1.3 for 8652/0001 handles this problem.} @ChgDeleted{Version=[1],Text=[The above rules do not include the ligatures @latin1(198) and @latin1(230). However, the intent is to include these characters as identifier letters. This problem was pointed out by a comment from the Netherlands.]} @end{Honest} @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01]} @ChgAdded{Version=[2],Text=[@Defn{letter_titlecase}@ntf{letter_titlecase}@\Any character whose General Category is defined to be @lquotes@;Letter, Titlecase@rquotes@;.]} @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01]} @ChgAdded{Version=[2],Text=[@Defn{letter_modifier}@ntf{letter_modifier}@\Any character whose General Category is defined to be @lquotes@;Letter, Modifier@rquotes@;.]} @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01]} @ChgAdded{Version=[2],Text=[@Defn{letter_other}@ntf{letter_other}@\Any character whose General Category is defined to be @lquotes@;Letter, Other@rquotes@;.]} @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01]} @ChgAdded{Version=[2],Text=[@Defn{mark_non_spacing}@ntf{mark_non_spacing}@\Any character whose General Category is defined to be @lquotes@;Mark, Non-Spacing@rquotes@;.]} @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01]} @ChgAdded{Version=[2],Text=[@Defn{mark_non_spacing}@ntf{mark_spacing_combining}@\Any character whose General Category is defined to be @lquotes@;Mark, Spacing Combining@rquotes@;.]} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} @Chg{Version=[2],New=[@Defn{number_decimal}@ntf{number_decimal}], Old=[@Defn{digit}@nt{digit}]}@\@Chg{Version=[2],New=[Any character whose General Category is defined to be @lquotes@;Number, Decimal@rquotes@;], Old=[One of the characters 0, 1, 2, 3, 4, 5, 6, 7, 8, or 9]}. @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01]} @ChgAdded{Version=[2],Text=[@Defn{number_letter}@ntf{number_letter}@\Any character whose General Category is defined to be @lquotes@;Number, Letter@rquotes@;.]} @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01]} @ChgAdded{Version=[2],Text=[@Defn{punctuation_connector}@ntf{punctuation_connector}@\Any character whose General Category is defined to be @lquotes@;Punctuation, Connector@rquotes@;.]} @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01]} @ChgAdded{Version=[2],Text=[@Defn{other_format}@ntf{other_format}@\Any character whose General Category is defined to be @lquotes@;Other, Format@rquotes@;.]} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} @Chg{Version=[2],New=[@Defn{separator_space}@ntf], Old=[@Defn{space_character}@ntf{space_character}]}@\@Chg{Version=[2],New=[Any character whose General Category is defined to be @lquotes@;Separator, Space@rquotes@;.],Old=[The character of ISO 10646 BMP named @lquotes@;Space@rquotes@;.]} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} @Chg{Version=[2],New=[@Defn{separator_line}@ntf{separator_line}], Old=[@Defn{special_character}@ntf{special_character}]}@\Any character @Chg{Version=[2],New=[whose General Category is defined to be @lquotes@;Separator, Line@rquotes@;.], Old=[of the ISO 10646 BMP that is not reserved for a control function, and is not the @ntf, an @ntf, or a @ntf.]} @begin{Ramification} @ChgRef{Version=[2],Kind=[DeletedNoDelMsg]} @ChgDeleted{Version=[2],Text=[Note that the no break space and soft hyphen are @ntfs, and therefore @nts. They are not the same characters as space and hyphen-minus.]} @end{Ramification} @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01]} @ChgAdded{Version=[2],Text=[@Defn{separator_paragraph}@ntf{separator_paragraph}@\Any character whose General Category is defined to be @lquotes@;Separator, Paragraph@rquotes@;.]} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0262-1]} @Defn{format_effector}@ntf@\The @Chg{Version=[2],New=[characters whose code @Chg{Version=[3],New=[points],Old=[positions]} are 16#09# (CHARACTER TABULATION), 16#0A# (LINE FEED), 16#0B# (LINE TABULATION), 16#0C# (FORM FEED), 16#0D# (CARRIAGE RETURN), 16#85# (NEXT LINE), and the characters in categories @ntf{separator_line} and @ntf{separator_paragraph}], Old=[control functions of ISO 6429 called character tabulation (HT), line tabulation (VT), carriage return (CR), line feed (LF), and form feed (FF)]}. @IndexSeeAlso{Term=[control character],See=(format_effector)} @begin{Discussion} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgAdded{Version=[2],Text=[ISO/IEC 10646:2003 does not define the names of control characters, but rather refers to the names defined by ISO/IEC 6429:1992. These are the names that we use here.@Comment{10646:2011 gives a list of the long names from 6429:1992, so I'm not sure the above is true anymore. Best leave the old reference.}]} @end{Discussion} @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01]} @ChgAdded{Version=[2],Text=[@Defn{other_control}@ntf{other_control}@\Any character whose General Category is defined to be @lquotes@;Other, Control@rquotes@;, and which is not defined to be a @ntf.]} @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01]} @ChgAdded{Version=[2],Text=[@Defn{other_private_use}@ntf{other_private_use}@\Any character whose General Category is defined to be @lquotes@;Other, Private Use@rquotes@;.]} @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01]} @ChgAdded{Version=[2],Text=[@Defn{other_surrogate}@ntf{other_surrogate}@\Any character whose General Category is defined to be @lquotes@;Other, Surrogate@rquotes@;.]} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01],ARef=[AI95-00395-01]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0262-1]} @Chg{Version=[2],New=[@Defn{graphic_character}@ntf{graphic_character}], Old=[@Defn{other_control_function}@ntf]}@\@Chg{Version=[2], New=[Any character that is not in the categories @ntf{other_control}, @ntf{other_private_use}, @ntf{other_surrogate}, @ntf{format_effector}, and whose relative code @Chg{Version=[3],New=[point],Old=[position]} in its plane is neither 16#FFFE# nor 16#FFFF#.], Old=[Any control function, other than a @ntf, that is allowed in a comment; the set of @ntfs allowed in comments is implementation defined. @IndexSeeAlso{Term=[control character],See=(other_control_function)}]} @ChgImplDef{Version=[2],Kind=[Deleted],InitialVersion=[0], Text=[@ChgDeleted{Version=[2],Text=[The control functions allowed in comments.]}]} @begin{Discussion} @ChgRef{Version=[2],Kind=[AddedNormal],ARef=[AI95-00285-01]} @ChgAdded{Version=[2],Text=`We considered basing the definition of lexical elements on Annex A of ISO/IEC TR 10176 (4th edition), which lists the characters which should be supported in identifiers for all programming languages, but we finally decided against this option. Note that it is not our intent to diverge from ISO/IEC TR 10176, except to the extent that ISO/IEC TR 10176 itself diverges from ISO/IEC 10646:2003 (which is the case at the time of this writing [January 2005]).'} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgAdded{Version=[2],Type=[Leading],Text=[More precisely, we intend to align strictly with ISO/IEC 10646:2003. It must be noted that ISO/IEC TR 10176 is a Technical Report while ISO/IEC 10646:2003 is a Standard. If one has to make a choice, one should conform with the Standard rather than with the Technical Report. And, it turns out that one @i make a choice because there are important differences between the two:]} @begin{Itemize} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgAdded{Version=[2],Text=[ISO/IEC TR 10176 is still based on ISO/IEC 10646:2000 while ISO/IEC 10646:2003 has already been published for a year. We cannot afford to delay the adoption of our amendment until ISO/IEC TR 10176 has been revised.]} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgAdded{Version=[2],Text=[There are considerable differences between the two editions of ISO/IEC 10646, notably in supporting characters beyond the BMP (this might be significant for some languages, e.g. Korean).]} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgAdded{Version=[2],Text=[ISO/IEC TR 10176 does not define case conversion tables, which are essential for a case-insensitive language like Ada. To get case conversion tables, we would have to reference either ISO/IEC 10646:2003 or Unicode, or we would have to invent our own.]} @end{Itemize} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgAdded{Version=[2],Type=[Leading],Text=[For the purpose of defining the lexical elements of the language, we need character properties like categorization, as well as case conversion tables. These are mentioned in ISO/IEC 10646:2003 as useful for implementations, with a reference to Unicode. Machine-readable tables are available on the web at URLs:]} @begin{Example} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgAdded{Version=[2],Text=[@Chg{Version=[5],New=[@URLLink{URL=[http://www.unicode.org/Public/UCD/latest/ucd/UnicodeData.txt], Text=[http://www.unicode.org/Public/UCD/latest/ucd/UnicodeData.txt]} @URLLink{URL=[http://www.unicode.org/Public/UCD/latest/ucd/CaseFolding.txt], Text=[http://www.unicode.org/Public/UCD/latest/ucd/CaseFolding.txt]}], Old=[@URLLink{URL=[http://www.unicode.org/Public/4.0-Update/UnicodeData-4.0.0.txt], Text=[http://www.unicode.org/Public/4.0-Update/UnicodeData-4.0.0.txt]} @URLLink{URL=[http://www.unicode.org/Public/4.0-Update/CaseFolding-4.0.0.txt], Text=[http://www.unicode.org/Public/4.0-Update/CaseFolding-4.0.0.txt]}]}]} @end{Example} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgAdded{Version=[2],Type=[Leading],Text=[with an explanatory document found at URL:]} @begin{Example} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgAdded{Version=[2],Text=[@Chg{Version=[5],New=[@URLLink{URL=[http://www.unicode.org/reports/tr44/tr44-20.html], Text=[http://www.unicode.org/reports/tr44/tr44-20.html]}], Old=[@URLLink{URL=[http://www.unicode.org/Public/4.0-Update/UCD-4.0.0.html], Text=[http://www.unicode.org/Public/4.0-Update/UCD-4.0.0.html]}]}]} @end{Example} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgRef{Version=[5],Kind=[Revised],ARef=[AI12-0263-1]} @ChgAdded{Version=[2],Text=[The actual text of the standard only makes specific references to the corresponding clauses of ISO/IEC 10646@Chg{Version=[5],New=[],Old=[:2003]}, not to Unicode.]} @end{Discussion} @end{Description} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0266-1]} @ChgRef{Version=[5],Kind=[Revised],ARef=[AI12-0263-1]} @Leading@Chg{Version=[2],New=[],Old=[@Defn{names of @ntf{special_character}s} @Defn2{Term=[special_character],Sec=(names)}]}The following names are used when referring to certain @Chg{Version=[2],New=[characters (the first name is that given in ISO/IEC 10646:@Chg{Version=[3],New=[@Chg{Version=[5],New=[2017],Old=[2011]}],Old=[2003]})],Old=[@ntf{special_character}s]}: @Defn{quotation mark} @Defn{number sign} @Defn{ampersand} @Defn{apostrophe} @Defn{tick} @Defn{left parenthesis} @Defn{right parenthesis} @Defn{asterisk} @Defn{multiply} @Defn{plus sign} @Defn{comma} @Defn{hyphen-minus} @Defn{minus} @Defn{full stop} @Defn{dot} @Defn{point} @Defn{solidus} @Defn{divide} @Defn{colon} @Defn{semicolon} @Defn{less-than sign} @Defn{equals sign} @Defn{greater-than sign} @Defn{low line} @Defn{underline} @Defn{vertical line} @Chg{Version=[2],New=[@Defn{exclamation point} @Defn{percent sign}], Old=[@Defn{left square bracket} @Defn{right square bracket} @Defn{left curly bracket} @Defn{right curly bracket}]}@Chg{Version=[5],New=[@Defn{at sign} @Defn{left square bracket} @Defn{right square bracket}],Old=[]} @begin{Discussion} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0266-1]} @ChgRef{Version=[5],Kind=[Revised],ARef=[AI12-0125-3],ARef=[AI12-0212-1],ARef=[AI12-0263-1]} @Chg{Version=[2],New=[@Defn{graphic symbols}@Defn{glyphs}This table serves to show the correspondence between ISO/IEC 10646:@Chg{Version=[3],New=[@Chg{Version=[5],New=[2017],Old=[2011]}],Old=[2003]} names and the graphic symbols (glyphs) used in this International Standard. These are the characters], Old=[These are the ones]} that play a special role in the syntax of Ada@Chg{Version=[2],New=[], Old=[ 95, or in the syntax rules; we don't bother to define names for all characters. The first name given is the name from ISO 10646-1; the subsequent names, if any, are those used within the standard, depending on context]}. @end{Discussion} @Comment{The original version follows here (commented out) @begin{Display} @TabClear()@TabSet(P9) @begin(TwoCol) @NoParanum@;symbol @\name @NoParanum@; " @\quotation mark # @\number sign & @\ampersand ' @\apostrophe, tick ( @\left parenthesis ) @\right parenthesis * @\asterisk, multiply + @\plus sign , @\comma @en@; @\hyphen-minus, minus . @\full stop, dot, point / @\solidus, divide @NewColumn @NoParanum@;symbol @\name @NoParanum@; : @\colon ; @\semicolon < @\less-than sign = @\equals sign > @\greater-than sign _ @\low line, underline | @\vertical line [ @\left square bracket ] @\right square bracket { @\left curly bracket } @\right curly bracket @end(TwoCol) @end{Display}} @Comment{We use this (weird) four column version to make the HTML look much better. WARNING: The items that go together are in separate columns!!} @begin(FourCol) @NoParanum@;@ @ @Chg{Version=[2],New=[graphic ],Old=[@ @ @ @ ]}symbol @NoParanum@;@ @ @ @ @ @ @ @ @ "@* @ @ @ @ @ @ @ @ @ #@* @ @ @ @ @ @ @ @ @ &@* @ @ @ @ @ @ @ @ @ '@* @ @ @ @ @ @ @ @ @ (@* @ @ @ @ @ @ @ @ @ )@* @ @ @ @ @ @ @ @ @ *@* @ @ @ @ @ @ @ @ @ +@* @ @ @ @ @ @ @ @ @ ,@* @ @ @ @ @ @ @ @ @ @en@;@* @ @ @ @ @ @ @ @ @ .@* @Chg{Version=[2],New=[@Chg>],Old=[@*]}@Chg{Version=[2],New=[],Old=[@ @ @ @ @ @ @ @ @ /]}@ChgNote{Funny layout so HTML and RTF look right} @NewColumn @NoParanum@;name @NoParanum@;quotation mark@* number sign@* ampersand@* apostrophe, tick@* left parenthesis@* right parenthesis@* asterisk, multiply@* plus sign@* comma@* hyphen-minus, minus@* full stop, dot, point@* @Chg{Version=[2],New=[@Chg>],Old=[@*]}@Chg{Version=[2],New=[],Old=[solidus, divide]}@ChgNote{Funny layout so HTML and RTF look right} @NewColumn @NoParanum@;@ @ @Chg{Version=[2],New=[graphic ],Old=[@ @ @ @ ]}symbol @NoParanum@;@ @ @ @ @ @ @ @ @ :@* @ @ @ @ @ @ @ @ @ ;@* @ @ @ @ @ @ @ @ @ <@* @ @ @ @ @ @ @ @ @ =@* @ @ @ @ @ @ @ @ @ >@* @ @ @ @ @ @ @ @ @ _@* @ @ @ @ @ @ @ @ @ |@* @ @ @ @ @ @ @ @ @ @Chg{Version=[2],New=[/],Old=<[>}@* @ @ @ @ @ @ @ @ @ @Chg{Version=[2],New=[!],Old=<]>}@* @ @ @ @ @ @ @ @ @ @Chg>@* @Chg,Old=<>>@* @Chg,Old=<>>],Old=<@ @ @ @ @ @ @ @ @ }>> @NewColumn @NoParanum@;name @NoParanum@;colon@* semicolon@* less-than sign@* equals sign@* greater-than sign@* low line, underline@* vertical line@* @Chg{Version=[2],New=[solidus, divide],Old=[left square bracket]}@* @Chg{Version=[2],New=[exclamation point],Old=[right square bracket]}@* @Chg{Version=[2],New=[percent sign],Old=[left curly bracket]}@* @Chg@* @Chg{Version=[2],New=[@Chg>],Old=[right curly bracket]} @end(FourCol) @end{StaticSem} @begin{ImplReq} @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0286-1]} @ChgAdded{Version=[3],Text=[An Ada implementation shall accept Ada source code in UTF-8 encoding, with or without a BOM (see @RefSecNum{String Encoding}), where every character is represented by its code point. The character pair CARRIAGE RETURN/LINE FEED (code points 16#0D# 16#0A#) signifies a single end of line (see @RefSecNum{Lexical Elements, Separators, and Delimiters}); every other occurrence of a @ntf{format_effector} other than the character whose code point position is 16#09# (CHARACTER TABULATION) also signifies a single end of line.]} @begin{Reason} @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0079-1],ARef=[AI05-0286-1]} @ChgAdded{Version=[3],Text=[This is simply requiring that an Ada implementation be able to directly process the ACATS, which is provided in the described format. Note that files that only contain characters with code points in the first 128 (which is the majority of the ACATS) are represented in the same way in both UTF-8 and in "plain" string format. The ACATS includes a BOM in files that have any characters with code points greater than 127. Note that the BOM contains characters not legal in Ada source code, so an implementation can use that to automatically distinguish between files formatted as plain Latin-1 strings and UTF-8 with BOM.]} @ChgRef{Version=[3],Kind=[AddedNormal]} @ChgAdded{Version=[3],Text=[We allow line endings to be both represented as the pair CR LF (as in Windows and the ACATS), and as single @ntf{format_effector} characters (usually LF, as in Linux), in order that files created by standard tools on most operating systems will meet the standard format. We specify how many line endings each represent so that compilers use the same line numbering for standard source files.]} @ChgRef{Version=[3],Kind=[AddedNormal]} @ChgAdded{Version=[3],Text=[This requirement increases portability by having a format that is accepted by all Ada compilers. Note that implementations can support other source representations, including structured representations like a parse tree.]} @end{Reason} @end{ImplReq} @begin{ImplPerm} @ChgRef{Version=[2],Kind=[Deleted],ARef=[AI95-00285-01]} @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0266-1]} @Chg{Version=[3],New=[The categories defined above, as well as case mapping and folding, may be based on an implementation-defined version of ISO/IEC 10646 (2003 edition or later).],Old=[@Chg{Version=[2],New=[],Old=[In a nonstandard mode, the implementation may support a different character repertoire@Redundant[; in particular, the set of characters that are considered @ntfs can be extended or changed to conform to local conventions].]}]} @begin{Ramification} @ChgRef{Version=[2],Kind=[DeletedNoDelMsg]} @ChgDeleted{Version=[2],Text=[If an implementation supports other character sets, it defines which characters fall into each category, such as @lquotes@;@ntf{identifier_letter},@rquotes@; and what the corresponding rules of this section are, such as which characters are allowed in the text of a program.]} @ChgRef{Version=[3],Kind=[AddedNormal]} @ChgAdded{Version=[3],Text=} @end{Ramification} @begin{Discussion} @ChgRef{Version=[3],Kind=[AddedNormal]} @ChgAdded{Version=[3],Text=[This permission allows implementations to upgrade to using a newer character set standard whenever that makes sense, rather than having to wait for the next Ada Standard. But the character set standard used cannot be older than ISO/IEC 10646:2003 (which is essentially similar to Unicode 4.0).]} @end{Discussion} @end{ImplPerm} @begin{Notes} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} @Chg{Version=[2],New=[The characters in categories @ntf{other_control}, @ntf{other_private_use}, and @ntf{other_surrogate} are only allowed in comments], Old=[Every code position of ISO 10646 BMP that is not reserved for a control function is defined to be a @nt by this International Standard. This includes all code positions other than 0000 - 001F, 007F - 009F, and FFFE - FFFF]}. @ChgRef{Version=[3],Kind=[DeletedNoDelMsg],ARef=[AI05-0286-1]} @ChgDeleted{Version=[3],Text=[The language does not specify the source representation of programs.]} @begin(Discussion) @ChgRef{Version=[2],Kind=[Revised]} @ChgRef{Version=[3],Kind=[Deleted],ARef=[AI05-0286-1]} @ChgDeleted{Version=[3],Text=[Any source representation is valid so long as the implementer can produce an (information-preserving) algorithm for translating both directions between the representation and the standard character set. (For example, every character in the standard character set has to be representable, even if the output devices attached to a given computer cannot print all of those characters properly.) From a practical point of view, every implementer will have to provide some way to process the @Chg{Version=[2],New=[ACATS],Old=[ACVC]}. It is the intent to allow source representations, such as parse trees, that are not even linear sequences of characters. It is also the intent to allow different fonts: reserved words might be in bold face, and that should be irrelevant to the semantics.]} @end(Discussion) @end{Notes} @begin{Extend83} @Defn{extensions to Ada 83} Ada 95 allows 8-bit and 16-bit characters, as well as implementation-specified character sets. @end{Extend83} @begin{DiffWord83} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0299-1]} The syntax rules in this @Chg{Version=[3],New=[subclause],Old=[clause]} are modified to remove the emphasis on basic characters vs. others. (In this day and age, there is no need to point out that you can write programs without using (for example) lower case letters.) In particular, @ntf{character} (representing all characters usable outside comments) is added, and @ntf{basic_graphic_character}, @ntf{other_special_character}, and @ntf{basic_character} are removed. @ntf{Special_character} is expanded to include Ada 83's @ntf{other_special_character}, as well as new 8-bit characters not present in Ada 83.@Chg{Version=[2],New=[ Ada 2005 removes @ntf{special_character} altogether; we want to stick to ISO/IEC 10646:2003 character classifications.],Old=[]} Note that the term @lquotes@;basic letter@rquotes@; is used in @RefSec{Character Handling} to refer to letters without diacritical marks. @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} Character names now come from @Chg{Version=[2],New=[ISO/IEC 10646:2003],Old=[ISO 10646]}. @ChgRef{Version=[2],Kind=[Deleted],ARef=[AI95-00285-01]} @ChgDeleted{Version=[2],Text=[We use @ntf rather than @ntf since ISO 10646 BMP includes many "letters' that are not permitted in identifiers (in the standard mode).]} @end{DiffWord83} @begin{Extend95} @ChgRef{Version=[2],Kind=[AddedNormal],ARef=[AI95-00285-01],ARef=[AI95-00395-01]} @ChgAdded{Version=[2],Text=[@Defn{extensions to Ada 95} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0299-1]} Program text can use most characters defined by ISO-10646:2003. This @Chg{Version=[3],New=[subclause],Old=[clause]} has been rewritten to use the categories defined in that Standard. This should ease programming in languages other than English.]} @end{Extend95} @begin{Inconsistent2005} @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0266-1]} @ChgAdded{Version=[3],Text=<@Defn{inconsistencies with Ada 2005}An implementation is allowed (but not required) to use a newer character set standard to determine the categories, case mapping, and case folding. Doing so will change the results of attributes '[[Wide_]Wide_]Image and the packages [Wide_]Wide_Characters.Handling in the case of a few rarely used characters. (This also could make some identifiers illegal, for characters that are no longer classified as letters.) This is unlikely to be a problem in practice. Moreover, truly portable Ada 2012 programs should avoid using in these contexts any characters that would have different classifications in any character set standards issued since 10646:2003 (since the compiler can use any such standard as the basis for its classifications).>} @end{Inconsistent2005} @begin{Diffword2005} @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0079-1]} @ChgAdded{Version=[3],Text=[@b Clarified that only characters in the categories defined here are allowed in the source of an Ada program. This was clear in Ada 95, but Amendment 1 dropped the wording instead of correcting it.]} @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0286-1]} @ChgAdded{Version=[3],Text=[A standard source representation is defined that all compilers are expected to process. Since this is the same format as the ACATS, it seems unlikely that there are any implementations that don't meet this requirement. Moreover, other representations are still permitted, and the "impossible or impractical" loophole (see @RefSecnum{Conformity of an Implementation with the Standard}) can be invoked for any implementations that cannot directly process the ACATS.]} @end{Diffword2005} @begin{Diffword2012} @ChgRef{Version=[5],Kind=[AddedNormal],ARef=[AI12-0004-1]} @ChgAdded{Version=[5],Text=[@b The interpretation of Ada source that is in Normalization Form C but not in Normalization Form KC is no longer implementation-defined. This change could potentially change the meaning of a program for a compiler that normalized all program source to Normalization Form KC before processing it. We don't document this as an inconsistency as such handling was previously implementation defined (so any such code was already defined to be not portable), and we're not aware of any compiler that normalized source code (so we don't expect to see this problem in the real world).]} @end{Diffword2012} @LabeledClause{Lexical Elements, Separators, and Delimiters} @begin{StaticSem} @Defn{text of a program} The text of a program consists of the texts of one or more @nts. @Defn{lexical element} @IndexSee{Term=[token],See=(lexical element)} The text of each @nt is a sequence of separate @i(lexical elements). Each lexical element is formed from a sequence of characters, and is either a delimiter, an @nt, a reserved word, a @nt, a @nt, a @nt, or a comment. The meaning of a program depends only on the particular sequences of lexical elements that form its @nt{compilation}s, excluding @nt{comment}s. @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0262-1]} The text of a @nt is divided into @Defn{line}@i{lines}. @Defn{end of a line} In general, the representation for an end of line is implementation defined. However, a sequence of one or more @ntfs other than @Chg{Version=[2],New=[the character whose code @Chg{Version=[3],New=[point],Old=[position]} is 16#09# (CHARACTER TABULATION)],Old=[character tabulation (HT)]} signifies at least one end of line. @ImplDef{The representation for an end of line.} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} @Leading@Defn{separator} @Redundant[In some cases an explicit @i(separator) is required to separate adjacent lexical elements.] A separator is any of a @Chg{Version=[2],New=[@ntf{separator_space}],Old=[space character]}, a @Chg{Version=[2],New=[@ntf{format_effector}],Old=[format effector]}, or the end of a line, as follows: @begin(Discussion) @ChgRef{Version=[2],Kind=[DeletedNoDelMsg]} @ChgDeleted{Version=[2],Text=[It might be useful to define @lquotes@;white space@rquotes@; and use it here.]}@ChgNote{No one can figure out why, and it wouldn't match the Unicode def of whitespace.} @end(Discussion) @begin{Itemize} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} A @Chg{Version=[2],New=[@ntf{separator_space}],Old=[space character]} is a separator except within a @nt{comment}, a @nt{string_literal}, or a @nt{character_literal}. @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0262-1]} @Chg{Version=[2],New=[The character whose code @Chg{Version=[3],New=[point],Old=[position]} is 16#09# (CHARACTER TABULATION)],Old=[Character tabulation (HT)]} is a separator except within a @nt{comment}. The end of a line is always a separator. @end{Itemize} One or more separators are allowed between any two adjacent lexical elements, before the first of each @nt{compilation}, or after the last. At least one separator is required between an @nt{identifier}, a reserved word, or a @nt{numeric_literal} and an adjacent @nt{identifier}, reserved word, or @nt{numeric_literal}. @ChgRef{Version=[3],Kind=[Added],ARef=[AI05-0079-1]} @ChgAdded{Version=[3],Text=[One or more @ntf{other_format} characters are allowed anywhere that a separator is@Redundant[; any such characters have no effect on the meaning of an Ada program].]} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} @Defn{delimiter} A @i{delimiter} is either one of the following@Chg{Version=[2],New=[],Old=[ special]} characters@Chg{Version=[2],New=[:],Old=[]} @ChgRef{Version=[5],Kind=[Revised],ARef=[AI12-0125-3],ARef=[AI12-0212-1]} @begin{Display} &@ @ @ @ '@ @ @ @ (@ @ @ @ )@ @ @ @ *@ @ @ @ +@ @ @ @ ,@ @ @ @ @en@ @ @ @ .@ @ @ @ /@ @ @ @ :@ @ @ @ ;@ @ @ @ <@ @ @ @ =@ @ @ @ >@Chg{Version=[5],New=<@ @ @ @ @@@ @ @ @ [@ @ @ @ ]>,Old=[]}@ @ @ @ | @end{Display} @Defn{compound delimiter} or one of the following @i{compound delimiters} each composed of two adjacent special characters @begin{Display} =>@ @ @ @ ..@ @ @ @ **@ @ @ @ :=@ @ @ @ /=@ @ @ @ >=@ @ @ @ <=@ @ @ @ <<@ @ @ @ >>@ @ @ @ <> @end{Display} Each of the special characters listed for single character delimiters is a single delimiter except if this character is used as a character of a compound delimiter, or as a character of a @nt{comment}, @nt{string_literal}, @nt{character_literal}, or @nt{numeric_literal}. @RMNewPageVer{Version=[2]}@Comment{For printed version of Ada 2005 RM} @Leading@keepnext@;The following names are used when referring to compound delimiters:@table{Columns=[2], Alignment=[Allleft],FirstColWidth=[1],LastColWidth=[4], NoBreak=[F],Border=[F],SmallSize=[F],Caption=[], Headers=[delimiter@ @\name], Body=[=>@\arrow ..@\double dot **@\double star, exponentiate :=@\assignment (pronounced: @lquotes@;becomes@rquotes@;) /=@\inequality (pronounced: @lquotes@;not equal@rquotes@;) >=@\greater than or equal <=@\less than or equal <<@\left label bracket >>@\right label bracket <>@\box]} @end{StaticSem} @begin{ImplReq} An implementation shall support lines of at least 200 characters in length, not counting any characters used to signify the end of a line. An implementation shall support lexical elements of at least 200 characters in length. The maximum supported line length and lexical element length are implementation defined. @ImplDef{Maximum supported line length and lexical element length.} @begin{Discussion} From URG recommendation. @end{Discussion} @end{ImplReq} @begin{Diffword95} @ChgRef{Version=[2],Kind=[AddedNormal],ARef=[AI95-00285-01]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0299-1]} @ChgAdded{Version=[2],Text=[The wording was updated to use the new character categories defined in the preceding @Chg{Version=[3],New=[subclause],Old=[clause]}.]} @end{Diffword95} @begin{Extend2005} @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0079-1]} @ChgAdded{Version=[3],Text=[@Defn{extensions to Ada 2005}@b Clarified that @ntf{other_format} characters are allowed anywhere that separators are allowed. This was intended in Ada 2005, but didn't actually make it into the wording.]} @end{Extend2005} @begin{DiffWord2012} @ChgRef{Version=[5],Kind=[AddedNormal],ARef=[AI12-0125-3],ARef=[AI12-0212-1]} @ChgAdded{Version=[5],Text=[Added square brackets and the @nt{target_name} symbol to the list of delimiters (see @RefSecNum{Target Name Symbols}).]} @end{DiffWord2012} @LabeledClause{Identifiers} @begin{Intro} @nts are used as names. @end{Intro} @begin{Syntax} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01],ARef=[AI95-00395-01]} @Syn{lhs=,rhs=" @Chg{Version=[2],New=<@Syn2{identifier_start} {@Syn2{identifier_start} | @Syn2{identifier_extend}}>, Old=<@Synf{identifier_letter} {[@Synf{underline}] @Syn2{letter_or_digit}}>}"} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01],ARef=[AI95-00395-01]} @Syn{lhs=<@Chg{Version=[2],New=,Old=}>, rhs="@Chg{Version=[2],New=< @Synf{letter_uppercase} | @Synf{letter_lowercase} | @Synf{letter_titlecase} | @Synf{letter_modifier} | @Synf{letter_other} | @Synf{number_letter}>,Old=<@Synf{identifier_letter} | @Synf{digit}>}"} @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01],ARef=[AI95-00395-01]} @ChgRef{Version=[3],Kind=[RevisedAdded],ARef=[AI05-0091-1]} @AddedSyn{Version=[2],lhs=<@Chg{Version=[2],New=,Old=<>}>, rhs="@Chg{Version=[2],New=< @Synf{mark_non_spacing} | @Synf{mark_spacing_combining} | @Synf{number_decimal} | @Synf{punctuation_connector}@Chg{Version=[3],New=<>,Old=< | @Synf{other_format}>}>,Old=<>}"} @begin{SyntaxText} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00395-01]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0091-1]} @Chg{Version=[2],New=[@Chg{Version=[3],New=[An],Old=[After eliminating the characters in category @ntf{other_format}, an]} @nt{identifier} shall not contain two consecutive characters in category @Chg{Version=[3],New=[@ntf{punctuation_connector}],Old=[punctuation_connector]}, or end with a character in that category.],Old=[An @nt{identifier} shall not be a reserved word.]} @begin{Reason} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgRef{Version=[3],Kind=[Revised]} @ChgAdded{Version=[2],Text=[This rule was stated in the syntax in Ada 95, but that has gotten too complex in Ada 2005.@Chg{Version=[3],New=[], Old=[ Since @ntf{other_format} characters usually do not display, we do not want to count them as separating two underscores.]}]} @end{Reason} @end{SyntaxText} @end{Syntax} @begin{Legality} @ChgRef{Version=[5],Kind=[Added],ARef=[AI12-0004-1],ARef=[AI12-0263-1]} @ChgAdded{Version=[5],Text=[An identifier shall only contain characters that may be present in Normalization Form KC (as defined by Clause 21 of ISO/IEC 10646:2017).]} @begin{ImplNote} @ChgRef{Version=[5],Kind=[AddedNormal],ARef=[AI12-0004-1],ARef=[AI12-0005-1]} @ChgAdded{Version=[5],Text=[An implementation can usually detect this during lexical processing. The code points not allowed are those for which Unicode property NFKC_QC (Normalization Form KC Quick_Check) has the value No. We say "may be present" so that characters for which the value is Maybe (really, one of the possible values is Maybe) are allowed (these are mainly combining marks). The necessary tables can be found in @URLLink{URL=[http://www.unicode.org/Public/UCD/latest/ucd/DerivedNormalizationProps.txt], Text=[http://www.unicode.org/Public/UCD/latest/ucd/DerivedNormalizationProps.txt]}. Versions for older Unicode versions can be found on this site as well; start at @URLLink{URL=[http://www.unicode.org/Public/], Text=[http://www.unicode.org/Public/]} and find the appropriate version number.]} @end{ImplNote} @end{Legality} @begin{StaticSem} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00285-01]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0091-1],ARef=[AI05-0227-1],ARef=[AI05-0266-1],ARef=[AI05-0299-1]} @ChgRef{Version=[5],Kind=[Revised],ARef=[AI12-0263-1]} @Comment{Removed the "Type=[Leading]" along with the bullets. Don't have a way to make it doubly conditional (only in Version=[2]), and since it is mainly for spacing, we just forget it.} @ChgAdded{Version=[2],Text=[Two @nt{identifier}s are ]}@Chg{Version=[2], New=[considered the same if they consist of the same sequence of characters after applying @Chg{Version=[3],New=[locale-independent simple case folding, as defined by documents referenced @Chg{Version=[5],New=[],Old=[in the note ]}in Clause @Chg{Version=[5],New=[2],Old=[1]} of ISO/IEC 10646:@Chg{Version=[5],New=[2017],Old=[2011]}.@Defn{case insensitive}],Old=[the following transformations (in this order):]}],Old=[All characters of an @nt{identifier} are significant, including any underline character. @Defn{case insensitive} @nt{Identifier}s differing only in the use of corresponding upper and lower case letters are considered the same.]} @begin{Itemize} @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01]} @ChgRef{Version=[3],Kind=[DeletedAddedNoDelMsg],ARef=[AI05-0091-1]} @ChgAdded{Version=[2],Text=[@Chg{Version=[3],New=[],Old=[The characters in category @ntf{other_format} are eliminated.]}]} @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01],ARef=[AI95-00395-01]} @ChgRef{Version=[3],Kind=[DeletedAddedNoDelMsg],ARef=[AI05-0091-1]} @ChgAdded{Version=[2],Text=[@Chg{Version=[3],New=[],Old=[The remaining sequence of characters is converted to upper case. @Defn{case insensitive}]}]} @end{Itemize} @begin(Discussion) @ChgRef{Version=[2],Kind=[DeletedNoDelMsg]} @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0227-1]} @Chg{Version=[3],New=[Simple case folding is a mapping to lower case, so this is matching the defining (lower case) version of a reserved word. We could have mentioned case folding of the reserved words, but as that is an identity function, it would have no effect.],Old=[@Chg{Version=[2],New=[],Old=[Two of the letters of ISO 8859-1 appear only as lower case, "sharp s" and "y with diaeresis." These two letters have no corresponding upper case letter (in particular, they are not considered equivalent to one another).]}]} @ChgRef{Version=[3],Kind=[Added],ARef=[AI05-0227-1]} @ChgRef{Version=[5],Kind=[RevisedAdded],ARef=[AI12-0263-1]} @ChgAdded{Version=[3],Text=[The @ldquote@;documents referenced@rdquote means Unicode@Chg{Version=[5],New=[, Chapter 4 (specifically, section 4.2 @em Case)],Old=[]}. Note that simple case folding is supposed to be compatible between Unicode versions, so the Unicode version used doesn't matter.@Chg{Version=[5],New=[ A machine-readable version of the needed mapping can be found at: @URLLink{URL=[http://www.unicode.org/Public/UCD/latest/ucd/CaseFolding.txt], Text=[http://www.unicode.org/Public/UCD/latest/ucd/CaseFolding.txt]}.],Old=[]}]} @end(Discussion) @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00395-01]} @ChgRef{Version=[3],Kind=[RevisedAdded],ARef=[AI05-0091-1],ARef=[AI05-0227-1]} @ChgAdded{Version=[2],Text=[After applying @Chg{Version=[3],New=[simple case folding],Old=[these transformations]}, an @nt{identifier} shall not be identical to a reserved word@Chg{Version=[3],New=[],Old=[ (in upper case)]}.]} @begin(ImplNote) @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgRef{Version=[3],Kind=[Revised]} @ChgAdded{Version=[2],Text=[We match the reserved words after @Chg{Version=[3],New=[applying case folding],Old=[doing these transformations]} so that the rules for @nt{identifier}s and reserved words are the same. @Chg{Version=[3],New=[],Old=[(This allows @ntf{other_format} characters, which usually don't display, in a reserved word without changing it to an @nt{identifier}.) ]}Since a compiler usually will lexically process @nt{identifier}s and reserved words the same way (often with the same code), this will prevent a lot of headaches.]} @end(ImplNote) @begin(Ramification) @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0227-1]} @ChgAdded{Version=[2],Text=[The rules for reserved words differ in one way: they define case conversion on letters rather than sequences. This means that @Chg{Version=[3],New=[it is possible that there exist ],Old=[]}some unusual sequences @Chg{Version=[3],New=[that ],Old=[]}are neither @nt{identifier}s nor reserved words. @Chg{Version=[3],New=[We are not aware of any such sequences so long as we use simple case folding (as opposed to full case folding), but we have defined the rules in case any are introduced in future character set standards. This originally was a problem when converting to upper case:],Old=[For instance,]} @lquotes@;@smldotlessi@;f@rquotes@; and @lquotes@;acce@latin1(223)@rquotes@; have upper case conversions of @lquotes@;IF@rquotes@; and @lquotes@;ACCESS@rquotes@; respectively. @Chg{Version=[3],New=[We would not want these to be treated as reserved words. But neither of these cases exist when using simple case folding.], Old=[These are not @nt{identifier}s, because the transformed values are identical to a reserved word. But they are not reserved words, either, because the original values do not match any reserved word as defined or with any number of characters of the reserved word in upper case. Thus, these odd constructions are just illegal, and should not appear in the source of a program.]}]} @end(Ramification) @end{StaticSem} @begin{ImplPerm} In a nonstandard mode, an implementation may support other upper/lower case equivalence rules for @nts@Redundant[, to accommodate local conventions]. @end{ImplPerm} @begin(Discussion) @ChgRef{Version=[2],Kind=[AddedNormal],ARef=[AI95-00285-01]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0227-1]} @ChgAdded{Version=[2],Type=[Leading],Text=[For instance, in most languages, the @Chg{Version=[3],New=[simple case folded],Old=[uppercase]} equivalent of LATIN @Chg{Version=[3],New=[CAPITAL],Old=[SMALL]} LETTER I (@Chg{Version=[3],New=[an upper],Old=[a lower]} case letter @Chg{Version=[3],New=[without],Old=[with]} a dot above) is LATIN @Chg{Version=[3],New=[SMALL],Old=[CAPITAL]} LETTER I (@Chg{Version=[3],New=[a lower],Old=[an upper]} case letter @Chg{Version=[3],New=[with],Old=[without]} a dot above). In Turkish, though, LATIN @Chg{Version=[3],New=[CAPITAL],Old=[SMALL]} LETTER I and LATIN @Chg{Version=[3],New=[CAPITAL],Old=[SMALL]} LETTER @Chg{Version=[3],New=[],Old=[DOTLESS ]}I@Chg{Version=[3],New=[ WITH DOT ABOVE],Old=[]} are two distinct letters, so the @Chg{Version=[3],New=[case folded],Old=[upper case]} equivalent of LATIN @Chg{Version=[3],New=[CAPITAL],Old=[SMALL]} LETTER I is LATIN @Chg{Version=[3],New=[SMALL],Old=[CAPITAL]} LETTER @Chg{Version=[3],New=[DOTLESS ],Old=[]}I@Chg{Version=[3],New=[],Old=[ WITH DOT ABOVE]}, and the @Chg{Version=[3],New=[case folded],Old=[upper case]} equivalent of LATIN @Chg{Version=[3],New=[CAPITAL],Old=[SMALL]} LETTER @Chg{Version=[3],New=[],Old=[DOTLESS ]}I@Chg{Version=[3],New=[ WITH DOT ABOVE],Old=[]} is LATIN @Chg{Version=[3],New=[SMALL],Old=[CAPITAL]} LETTER I. Take for instance the following identifier (which is the name of a city on the Tigris river in Eastern Anatolia):]} @begin{Example} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgRef{Version=[3],Kind=[Revised]} @ChgAdded{Version=[2],Text=[@Chg{Version=[3],New=[D@capdottedi@;YARBAKIR],Old=[diyarbak@smldotlessi@;r]} -- @RI[The first i is dotted, the second isn't.]]} @end{Example} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgRef{Version=[3],Kind=[Revised]} @ChgAdded{Version=[2],Type=[Leading],Text=[@Chg{Version=[3],New=[A Turkish reader would expect that the above identifier is equivalent to],Old=[Locale-independent conversion to upper case results in]}:]} @begin{Example} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgRef{Version=[3],Kind=[Revised]} @ChgAdded{Version=[2],Text=[@Chg{Version=[3],New=[diyarbak@smldotlessi@;r],Old=[DIYARBAKIR -- @RI[Both Is are dotless.]]}]} @end{Example} @ChgRef{Version=[3],Kind=[Added]} @ChgAdded{Version=[3],Type=[Leading],Text=[However, locale-independent simple case folding (and thus Ada) maps this to:]} @begin{Example} @ChgRef{Version=[3],Kind=[Added]} @ChgAdded{Version=[3],Text=[d@capdottedi@;yarbakir]} @end{Example} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgRef{Version=[3],Kind=[Revised]} @ChgAdded{Version=[2],Type=[Leading],Text=[@Chg{Version=[3],New=[which is different from any of the following identifiers],Old=[This means that the four following sequences of characters represent the same identifier, even though for a locutor of Turkish they would probably be considered distinct words]}:]} @begin{Example} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgAdded{Version=[2],Text=[diyarbakir diyarbak@smldotlessi@;r d@smldotlessi@;yarbakir d@smldotlessi@;yarbak@smldotlessi@;r]} @end{Example} @ChgRef{Version=[3],Kind=[Added]} @ChgAdded{Version=[3],Text=} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgRef{Version=[3],Kind=[Revised]} @Comment{Removed the "Type=[Leading]" along with the example. Don't have a way to make it doubly conditional (only in Version=[2]), and since it is mainly for spacing, we just forget it.} @ChgAdded{Version=[2],Text=[An implementation targeting the Turkish market is allowed (in fact, expected) to provide a nonstandard mode where case folding is appropriate for Turkish.@Chg{Version=[3],New=[],Old=[ This would cause the original identifier to be converted to:]}]} @begin{Example} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgRef{Version=[3],Kind=[DeletedNoDelMsg]} @ChgAdded{Version=[2],Text=[@Chg{Version=[3],New=[],Old=[D@capdottedi@;YARBAKIR -- @RI[The first I is dotted, the second isn't.]]}]} @end{Example} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgRef{Version=[3],Kind=[DeletedNoDelMsg]} @ChgAdded{Version=[2],Text=[@Chg{Version=[3],New=[],Old=[and the four sequences of characters shown above would represent four distinct identifiers.]}]} @ChgRef{Version=[2],Kind=[AddedNormal]} @ChgAdded{Version=[2],Text=[Lithuanian and Azeri are two other languages that present similar idiosyncrasies.]} @end{Discussion} @begin{Notes} @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01]} @ChgAdded{Version=[2],Text=[@nt{Identifier}s differing only in the use of corresponding upper and lower case letters are considered the same.]} @end{Notes} @begin{Examples} @Leading@keepnext@i{Examples of identifiers:} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00433-01]} @ChgNote{Old version:@begin{Display} Count X Get_Symbol Ethelyn Marion @Comment{Blank line} Snobol_4 X1 Page_Count Store_Next_Item @end{Display}} @begin{Example} Count X Get_Symbol Ethelyn Marion Snobol_4 X1 Page_Count Store_Next_Item@Chg{Version=[2],New=[ @unicode(928)@unicode(955)@unicode(940)@unicode(964)@unicode(969)@unicode(957) --@RI[ Plato] @unicode(1063)@unicode(1072)@unicode(1081)@unicode(1082)@unicode(1086)@unicode(1074)@unicode(1089)@unicode(1082)@unicode(1080)@unicode(1081) --@RI[ Tchaikovsky] @unicode(952) @unicode(966) --@RI[ Angles]],Old=[]} @end{Example} @end{Examples} @begin{DiffWord83} We no longer include reserved words as @nts. This is not a language change. In Ada 83, @nt{identifier} included reserved words. However, this complicated several other rules (for example, regarding implementation-defined attributes and pragmas, etc.). We now explicitly allow certain reserved words for attribute designators, to make up for the loss. @begin{Ramification} Because syntax rules are relevant to overload resolution, it means that if it looks like a reserved word, it is not an @nt. As a side effect, implementations cannot use reserved words as implementation-defined attributes or pragma names. @end{Ramification} @end{DiffWord83} @begin{Extend95} @ChgRef{Version=[2],Kind=[AddedNormal],ARef=[AI95-00285-01]} @ChgAdded{Version=[2],Text=[@Defn{extensions to Ada 95} An @nt{identifier} can use any letter defined by ISO-10646:2003, along with several other categories. This should ease programming in languages other than English.]} @end{Extend95} @begin{Incompatible2005} @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0091-1]} @ChgAdded{Version=[3],Text=[@Defn{incompatibilities with Ada 2005}@B @ntf{other_format} characters were removed from identifiers as the Unicode recommendations have changed. This change can only affect programs written for the original Ada 2005, so there should be few such programs.]} @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0227-1]} @ChgAdded{Version=[3],Text=[@B We now specify simple case folding rather than full case folding. That potentially could change identifier equivalence, although it is more likely that identifiers that are considered the same in original Ada 2005 will now be considered different. This change was made because the original Ada 2005 definition was incompatible (and even inconsistent in unusual cases) with the Ada 95 identifier equivalence rules. As such, the Ada 2005 rules were rarely fully implemented, and in any case, only Ada 2005 identifiers containing wide characters could be affected.]} @end{Incompatible2005} @begin{Incompatible2012} @ChgRef{Version=[5],Kind=[AddedNormal],ARef=[AI12-0004-1]} @ChgAdded{Version=[5],Text=[@Defn{incompatibilities with Ada 2012}@B An identifier that contains any characters not permitted in Normalization Form KC is now illegal. Ada 2012 allowed such identifiers, but their interpretation was implementation-defined (so the use of such identifiers was not portable). Identifiers that may be interpreted differently by different compilers are a safety and security hazard, so we no longer allow them.]} @end{Incompatible2012} @LabeledClause{Numeric Literals} @begin{Intro} @Defn2{Term=[literal], Sec=(numeric)} There are two kinds of @nts, @i(real literals) and @i(integer literals). @Defn{real literal} A real literal is a @nt{numeric_literal} that includes a point; @Defn{integer literal} an integer literal is a @nt{numeric_literal} without a point. @end{Intro} @begin{Syntax} @Syn{lhs=,rhs="@Syn2{decimal_literal} | @Syn2{based_literal}"} @end{Syntax} @begin{Notes} The type of an integer literal is @i{universal_integer}. The type of a real literal is @i{universal_real}. @end{Notes} @LabeledSubClause{Decimal Literals} @begin{Intro} @Defn2{Term=[literal], Sec=(decimal)} A @nt is a @nt in the conventional decimal notation (that is, the base is ten). @end{Intro} @begin{Syntax} @Syn{lhs=,rhs="@Syn2{numeral} [.@Syn2{numeral}] [@Syn2{exponent}]"} @Syn{lhs=,rhs="@Syn2{digit} {[@Synf{underline}] @Syn2{digit}}"} @Syn{lhs=,rhs="E [+] @Syn2{numeral} | E @en@; @Syn2{numeral}"} @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01]} @AddedSyn{Version=[2],lhs=<@Chg{Version=[2],New=,Old=<>}>, rhs="@Chg{Version=[2],New=<0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9>,Old=<>}"} @begin{SyntaxText} An @nt{exponent} for an integer literal shall not have a minus sign. @begin{Ramification} Although this rule is in this subclause, it applies also to the next subclause. @end{Ramification} @end{SyntaxText} @end{Syntax} @begin{StaticSem} An underline character in a @nt{numeric_literal} does not affect its meaning. The letter E of an @nt{exponent} can be written either in lower case or in upper case, with the same meaning. @begin{Ramification} Although these rules are in this subclause, they apply also to the next subclause. @end{Ramification} An @nt{exponent} indicates the power of ten by which the value of the @nt{decimal_literal} without the @nt{exponent} is to be multiplied to obtain the value of the @nt{decimal_literal} with the @nt{exponent}. @end{StaticSem} @begin{Examples} @Leading@keepnext@i{Examples of decimal literals:} @ChgNote{ Old version: @begin{Display} @tabclear()@tabset(P31) 12 0 1E6 123_456 @\--@i{ integer literals} @Comment{Blank line} 12.0 0.0 0.456 3.14159_26 @\--@i{ real literals} @end{Display}} @begin{Example} 12 0 1E6 123_456 --@RI{ integer literals} @Comment{Blank line} 12.0 0.0 0.456 3.14159_26 --@RI{ real literals} @end{Example} @end{Examples} @begin{DiffWord83} We have changed the syntactic category name @ntf{integer} to be @nt{numeral}. We got this idea from ACID. It avoids the confusion between this and integers. (Other places don't offer similar confusions. For example, a @nt{string_literal} is different from a string.) @end{DiffWord83} @LabeledSubClause{Based Literals} @begin{Intro} @Redundant[ @Defn2{Term=[literal], Sec=(based)} @Defn{binary literal} @Defn{base 2 literal} @Defn2{Term=[binary], Sec=(literal)} @Defn{octal literal} @Defn{base 8 literal} @Defn2{Term=[octal], Sec=(literal)} @Defn{hexadecimal literal} @Defn{base 16 literal} @Defn2{Term=[hexadecimal], Sec=(literal)} A @nt is a @nt expressed in a form that specifies the base explicitly.] @end{Intro} @begin{Syntax} @Syn{lhs=,rhs=" @Syn2{base} # @Syn2{based_numeral} [.@Syn2{based_numeral}] # [@Syn2{exponent}]"} @Syn{lhs=,rhs="@Syn2{numeral}"} @Syn{lhs=,rhs=" @Syn2{extended_digit} {[@Synf{underline}] @Syn2{extended_digit}}"} @Syn{lhs=,rhs="@Syn2{digit} | A | B | C | D | E | F"} @end{Syntax} @begin{Legality} @Defn{base} The @i(base) (the numeric value of the decimal @nt preceding the first #) shall be at least two and at most sixteen. The @nt{extended_digit}s A through F represent the digits ten through fifteen, respectively. The value of each @nt{extended_digit} of a @nt{based_literal} shall be less than the base. @end{Legality} @begin{StaticSem} The conventional meaning of based notation is assumed. An @nt{exponent} indicates the power of the base by which the value of the @nt{based_literal} without the @nt{exponent} is to be multiplied to obtain the value of the @nt{based_literal} with the @nt{exponent}. The @nt{base} and the @nt{exponent}, if any, are in decimal notation. The @nt{extended_digit}s A through F can be written either in lower case or in upper case, with the same meaning. @end{StaticSem} @begin{Examples} @Leading@keepnext@i{Examples of based literals:} @ChgNote{ Old version: @begin{Display} @tabclear()@tabset(P16, P45) 2#1111_1111# @\16#FF# 016#0ff# @\--@i{ integer literals of value 255} 16#E#E1 @\2#1110_0000# @\--@i{ integer literals of value 224} 16#F.FF#E+2 @\2#1.1111_1111_1110#E11 @\--@i{ real literals of value 4095.0} @end{Display}} @begin{Example} 2#1111_1111# 16#FF# 016#0ff# --@RI{ integer literals of value 255} 16#E#E1 2#1110_0000# --@RI{ integer literals of value 224} 16#F.FF#E+2 2#1.1111_1111_1110#E11 --@RI{ real literals of value 4095.0} @end{Example} @end{Examples} @begin{DiffWord83} The rule about which letters are allowed is now encoded in BNF, as suggested by Mike Woodger. This is clearly more readable. @end{DiffWord83} @LabeledClause{Character Literals} @begin{Intro} @Redundant[A @nt is formed by enclosing a graphic character between two apostrophe characters.] @end{Intro} @begin{Syntax} @Syn{lhs=,rhs="@SingleQuote@Synf{graphic_character}@SingleQuote"} @end{Syntax}@Comment{graphic_character is defined syntactically in Ada 95, but not in Ada 2007} @begin{Notes} A @nt{character_literal} is an enumeration literal of a character type. See @RefSecNum(Character Types). @end{Notes} @begin{Examples} @Leading@keepnext@i{Examples of character literals:} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00433-01]} @ChgNote{ Orginal version: @begin{Display} 'A'@ @ @ @ @ '*'@ @ @ @ @ '''@ @ @ @ @ '@ ' @end{Display}} @begin{Example} 'A' '*' ''' ' '@Chg{Version=[2],New=[ 'L' '@Unicode(1051)' '@Unicode(923)' --@RI[ Various els.] '@Unicode(8734)' '@Unicode(1488)' --@RI[ Big numbers - infinity and aleph.]],Old=[]} @end{Example} @end{Examples} @begin{DiffWord83} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0299-1]} The definitions of the values of literals are in @Chg{Version=[3],New=[Clauses],Old=[Sections]} 3 and 4, rather than here, since it requires knowledge of types. @end{DiffWord83} @LabeledClause{String Literals} @begin{Intro} @redundant[A @nt is formed by a sequence of graphic characters (possibly none) enclosed between two quotation marks used as string brackets. They are used to represent @nts (see @RefSecNum(Subprogram Declarations)), values of a string type (see @RefSecNum(Literals)), and array subaggregates (see @RefSecNum(Array Aggregates)). @IndexSee{Term=[quoted string],See=(string_literal)}] @end{Intro} @begin{Syntax} @Syn{lhs=,rhs=<"{@Syn2{string_element}}">} @Syn{lhs=, rhs=<"" | @SynI{non_quotation_mark_}@Synf{graphic_character}>} @begin{SyntaxText} A @nt{string_element} is either a pair of quotation marks (""), or a single @ntf{graphic_character} other than a quotation mark. @end{SyntaxText} @end{Syntax} @begin{StaticSem} @Defn2{Term=[sequence of characters], Sec=(of a @nt)} The @i(sequence of characters) of a @nt is formed from the sequence of @nts between the bracketing quotation marks, in the given order, with a @nt that is "" becoming a single quotation mark in the sequence of characters, and any other @nt being reproduced in the sequence. @Defn{null string literal} A @i(null string literal) is a @nt with no @nts between the quotation marks. @end{StaticSem} @begin{Notes} An end of line cannot appear in a @nt{string_literal}. @ChgRef{Version=[2],Kind=[Added],ARef=[AI95-00285-01]} @ChgAdded{Version=[2],Text=[No transformation is performed on the sequence of characters of a @nt{string_literal}.]} @end{Notes} @begin{Examples} @Leading@keepnext@i{Examples of string literals:} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00433-01]} @ChgNote< Original version: @begin{Display} @tabclear()@tabset(P16) "Message of the day:" @comment{Blank line} "" @\--@i{ a null string literal} "@ " "A" """" @\--@i{ three string literals of length 1} @comment{Blank line} "Characters such as $, %, and } are allowed in string literals" @end{Display}> @begin{Example} "Message of the day:" @comment{Blank line} "" --@RI{ a null string literal} " " "A" """" --@RI{ three string literals of length 1} @comment{Blank line} "Characters such as $, %, and } are allowed in string literals" @Chg{Version=[2],New=["Archimedes said ""@unicode(917)@unicode(973)@unicode(961)@unicode(951)@unicode(954)@unicode(945)""" "Volume of cylinder (@pi@;r@latin1(178)h) = "],Old=[]} @end{Example} @end{Examples} @begin{DiffWord83} The wording has been changed to be strictly lexical. No mention is made of string or character values, since @nts are also used to represent @nts, which don't have a defined value. The syntax is described differently. @end{DiffWord83} @begin{DiffWord95} @ChgRef{Version=[2],Kind=[AddedNormal],ARef=[AI95-00285-01]} @ChgAdded{Version=[2],Text=[We explicitly say that the characters of a @nt{string_literal} should be used as is. In particular, no normalization or folding should be performed on a @nt{string_literal}.]} @end{DiffWord95} @LabeledClause{Comments} @begin{Intro} A @nt{comment} starts with two adjacent hyphens and extends up to the end of the line. @end{Intro} @begin{Syntax} @Syn{lhs=, rhs=<--{@SynI{non_end_of_line_}@Synf{character}}>}@Comment{character is defined syntactically in Ada 95, but not in Ada 2007. We assume the worst here.} @begin{SyntaxText} A @nt{comment} may appear on any line of a program. @end{SyntaxText} @end{Syntax} @begin{StaticSem} The presence or absence of @nt{comment}s has no influence on whether a program is legal or illegal. Furthermore, @nt{comment}s do not influence the meaning of a program; their sole purpose is the enlightenment of the human reader. @end{StaticSem} @begin{Examples} @Leading@keepnext@i{Examples of comments:} @ChgNote{Original version: @begin{Display} --@i{ the last sentence above echoes the Algol 68 report } @comment{Blank line} @key[end]; --@i{ processing of Line is complete } @comment{Blank line} --@i{ a long comment may be split onto} --@i{ two or more consecutive lines } @comment{Blank line} ----------------@i{ the first two hyphens start the comment } @end{Display}} @begin{Example} --@RI[ the last sentence above echoes the Algol 68 report ] @comment{Blank line} @key[end]; --@RI[ processing of Line is complete ] @comment{Blank line} --@RI[ a long comment may be split onto] --@RI[ two or more consecutive lines ] @comment{Blank line} ----------------@RI[ the first two hyphens start the comment ] @end{Example} @end{Examples} @LabeledClause{Pragmas} @begin{Intro} @ToGlossaryAlso{Term=, Text=} @end{Intro} @begin{MetaRules} @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0100-1],ARef=[AI05-0163-1]} @ChgAdded{Version=[3],Text=[In general, if all @nt{pragma}s are treated as unrecognized @nt{pragma}s, the program should remain both syntactically and semantically legal. There are a few exceptions to this general principle (for example, @nt{pragma} Import can eliminate the need for a completion), but the principle remains, and is strictly true at the syntactic level. Certainly any implementation-defined @nt{pragma}s should obey this principle both syntactically and semantically, so that if the @nt{pragma}s are not recognized by some other implementation, the program will remain legal.]} @end{MetaRules} @begin{Syntax} @Syn{lhs=,rhs=" @key{pragma} @Syn2{identifier} [(@Syn2{pragma_argument_association} {, @Syn2{pragma_argument_association}})];"} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0290-1]} @Syn{lhs=,rhs=" [@SynI{pragma_argument_}@Syn2{identifier} =>] @Syn2{name} | [@SynI{pragma_argument_}@Syn2{identifier} =>] @Syn2{expression}@Chg{Version=[3],New=[ | @SynI{pragma_argument_}@Syn2{aspect_mark} => @Syn2{name} | @SynI{pragma_argument_}@Syn2{aspect_mark} => @Syn2{expression}],Old=[]}"} @begin{SyntaxText} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0290-1]} In a @nt, any @nts without a @SynI{pragma_argument_}@nt @Chg{Version=[3],New=[or @SynI{pragma_argument_}@nt ],Old=[]}shall precede any associations with a @i{pragma_argument_}@nt@Chg{Version=[3],New=[ or @SynI{pragma_argument_}@nt],Old=[]}. @Leading@keepnext@nt{Pragma}s are only allowed at the following places in a program: @begin{Itemize} @ChgRef{Version=[5],Kind=[Revised],ARef=[AI12-0236-1]} After a semicolon delimiter, but not within a @nt{formal_part}@Chg{Version=[5],New=[,],Old=[ or]} @nt{discriminant_part}@Chg{Version=[5],New=[, or @nt{declare_expression}],Old=[]}. @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0100-1],ARef=[AI05-0163-1]} At any place where the syntax rules allow a construct defined by a syntactic category whose name ends with @ldquote@ntf{declaration}@rdquote, @Chg{Version=[3],New=[@ldquote@ntf{item}@rdquote, ],Old=[]}@ldquote@ntf{statement}@rdquote, @ldquote@ntf{clause}@rdquote, or @ldquote@ntf{alternative}@rdquote, or one of the syntactic categories @nt{variant} or @nt{exception_handler}; but not in place of such a construct@Chg{Version=[3],New=[ if the construct is required, or is part of a list that is required to have at least one such construct],Old=[. Also at any place where a @nt{compilation_unit} would be allowed]}. @ChgRef{Version=[3],Kind=[Added],ARef=[AI05-0163-1]} @ChgAdded{Version=[3],Text=[In place of a @nt{statement} in a @nt{sequence_of_statements}.]} @ChgRef{Version=[3],Kind=[Added],ARef=[AI05-0100-1]} @ChgAdded{Version=[3],Text=[At any place where a @nt{compilation_unit} is allowed.]} @end{Itemize} Additional syntax rules and placement restrictions exist for specific pragmas. @end{SyntaxText} @begin{Discussion} The above rule is written in text, rather than in BNF; the syntactic category @nt{pragma} is not used in any BNF syntax rule. @end{Discussion} @begin{Ramification} A @nt{pragma} is allowed where a @nt is allowed. @end{Ramification} @end{Syntax} @begin{Intro} @Defn2{Term=[name], Sec=(of a @nt{pragma})} @Defn{pragma name} The @i{name} of a @nt{pragma} is the identifier following the reserved word @key{pragma}. @Defn{pragma argument} @Defn{argument of a pragma} The @nt{name} or @nt{expression} of a @nt{pragma_argument_association} is a @i{pragma argument}. @begin{Honest} @ChgRef{Version=[2],Kind=[AddedNormal],ARef=[AI95-00284-02]} @ChgAdded{Version=[2],Text=[For compatibility with Ada 83, the name of a @nt{pragma} may also be @lquotes@key{interface}@rquotes@;, which is not an identifier (because it is a reserved word). See @RefSecNum{Pragma Interface}.]} @end{Honest} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0272-1]} @Defn{identifier specific to a pragma} @Defn{pragma, identifier specific to} An @i{identifier specific to a pragma} is an identifier @Chg{Version=[3],New=[or reserved word ],Old=[]}that is used in a pragma argument with special meaning for that pragma. @begin{Honest} Whenever the syntax rules for a given pragma allow "@nt{identifier}" as an argument of the @nt{pragma}, that @nt{identifier} is an identifier specific to that pragma. @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0272-1]} @ChgAdded{Version=[3],Text=[In a few cases, a reserved word is allowed as "an identifier specific to a pragma". Even in these cases, the syntax still is written as @nt{identifier} (the reserved word(s) are not shown). For example, the restriction No_Use_Of_Attribute (see @RefSecNum{Language-Defined Restrictions and Profiles}) allows the reserved words which can be attribute designators, but the syntax for a restriction does not include these reserved words.]} @end{Honest} @end{Intro} @begin{StaticSem} If an implementation does not recognize the name of a @nt{pragma}, then it has no effect on the semantics of the program. Inside such a @nt{pragma}, the only rules that apply are the @SyntaxName@;s. @begin{Honest} This rule takes precedence over any other rules that imply otherwise. @end{Honest} @begin{Ramification} Note well: this rule applies only to @nt{pragma}s whose name is not recognized. If anything else is wrong with a @nt{pragma} (at compile time), the @nt{pragma} is illegal. This is true whether the @nt{pragma} is language defined or implementation defined. For example, an expression in an unrecognized @nt{pragma} does not cause freezing, even though the rules in @RefSec{Freezing Rules} say it does; the above rule overrules those other rules. On the other hand, an expression in a recognized @nt{pragma} causes freezing, even if this makes something illegal. For another example, an expression that would be ambiguous is not illegal if it is inside an unrecognized @nt{pragma}. Note, however, that implementations have to recognize @key[pragma] Inline(Foo) and freeze things accordingly, even if they choose to never do inlining. Obviously, the contradiction needs to be resolved one way or the other. The reasons for resolving it this way are: The implementation is simple @em the compiler can just ignore the @nt{pragma} altogether. The interpretation of constructs appearing inside implementation-defined @nt{pragma}s is implementation defined. For example: @lquotes@;@key[pragma] Mumble(X);@rquotes@;. If the current implementation has never heard of Mumble, then it doesn't know whether X is a name, an expression, or an identifier specific to the pragma Mumble. @end{Ramification} @begin{Honest} The syntax of individual pragmas overrides the general syntax for @nt{pragma}. @end{Honest} @begin{Ramification} Thus, an identifier specific to a @nt{pragma} is not a @nt{name}, syntactically; if it were, the visibility rules would be invoked, which is not what we want. @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0229-1]} This also implies that named associations do not allow one to give the arguments in an arbitrary order @em the order given in the syntax rule for each individual pragma must be obeyed. However, it is generally possible to leave out earlier arguments when later ones are given; for example, this is allowed by the syntax rule for pragma Import (see @Chg{Version=[3],New=[@RefSec{Interfacing Pragmas}], Old=[@RefSec{Interfacing Aspects}]}). As for subprogram calls, positional notation precedes named notation. Note that Ada 83 had no pragmas for which the order of named associations mattered, since there was never more than one argument that allowed named associations. @end{Ramification} @begin{Honest} The interpretation of the arguments of implementation-defined pragmas is implementation defined. However, the syntax rules have to be obeyed. @end{Honest} @end{StaticSem} @begin{RunTime} @PDefn2{Term=[execution], Sec=(pragma)} @PDefn2{Term=[elaboration], Sec=(pragma)} Any @nt{pragma} that appears at the place of an executable construct is executed. Unless otherwise specified for a particular pragma, this execution consists of the evaluation of each evaluable pragma argument in an arbitrary order.@PDefn2{Term=[arbitrary order],Sec=[allowed]} @begin{Ramification} For a @nt{pragma} that appears at the place of an elaborable construct, execution is elaboration. An identifier specific to a pragma is neither a @nt{name} nor an @nt{expression} @em such identifiers are not evaluated (unless an implementation defines them to be evaluated in the case of an implementation-defined @nt{pragma}). The @lquotes@;unless otherwise specified@rquotes@; part allows us (and implementations) to make exceptions, so a @nt{pragma} can contain an expression that is not evaluated. Note that @nt{pragma}s in @nt{type_definition}s may contain expressions that depend on discriminants. When we wish to define a pragma with some run-time effect, we usually make sure that it appears in an executable context; otherwise, special rules are needed to define the run-time effect and when it happens. @end{Ramification} @end{RunTime} @begin{ImplReq} The implementation shall give a warning message for an unrecognized pragma name. @begin{Ramification} An implementation is also allowed to have modes in which a warning message is suppressed, or in which the presence of an unrecognized @nt{pragma} is a compile-time error. @end{Ramification} @end{ImplReq} @begin{ImplPerm} An implementation may provide implementation-defined pragmas; the name of an implementation-defined pragma shall differ from those of the language-defined pragmas. @ImplDef{Implementation-defined pragmas.} @begin{Ramification} The semantics of implementation-defined pragmas, and any associated rules (such as restrictions on their placement or arguments), are, of course, implementation defined. Implementation-defined pragmas may have run-time effects. @end{Ramification} An implementation may ignore an unrecognized pragma even if it violates some of the @SyntaxName@;s, if detecting the syntax error is too complex. @begin{Reason} Many compilers use extra post-parsing checks to enforce the syntax rules, since the Ada syntax rules are not LR(k) (for any k). (The grammar is ambiguous, in fact.) This paragraph allows them to ignore an unrecognized pragma, without having to perform such post-parsing checks. @end{Reason} @end{ImplPerm} @begin{ImplAdvice} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0163-1]} Normally, implementation-defined pragmas should have no semantic effect for error-free programs; that is, if the implementation-defined pragmas @Chg{Version=[3],New=[in a working program are replaced with unrecognized pragmas],Old=[are removed from a working program]}, the program should still be legal, and should still have the same semantics. @ChgImplAdvice{Version=[2],Kind=[Added],Text=[@ChgAdded{Version=[2], Text=[Implementation-defined pragmas should have no semantic effect for error-free programs.]}]} @begin{Ramification} Note that @lquotes@;semantics@rquotes@; is not the same as @lquotes@;effect;@rquotes@; as explained in @RefSecNum{Conformity of an Implementation With the Standard}, the semantics defines a set of possible effects. Note that adding a @nt{pragma} to a program might cause an error (either at compile time or at run time). On the other hand, if the language-specified semantics for a feature are in part implementation defined, it makes sense to support pragmas that control the feature, and that have real semantics; thus, this paragraph is merely a recommendation. @end{Ramification} @Leading@;Normally, an implementation should not define pragmas that can make an illegal program legal, except as follows: @begin(Itemize) @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0229-1]} A @nt used to complete a declaration@Chg{Version=[3],New=[],Old=[, such as a @nt{pragma} Import]}; @begin{Discussion} @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0229-1]} @ChgAdded{Version=[3],Text=[There are no language-defined pragmas which can be completions; @nt{pragma} Import was defined this way in Ada 95 and Ada 2005, but in Ada 2012 @nt{pragma} Import just sets aspect Import which disallows having any completion.]} @end{Discussion} A @nt used to configure the environment by adding, removing, or replacing @nt{library_item}s. @end(Itemize) @ChgImplAdvice{Version=[2],Kind=[Added],Text=[@ChgAdded{Version=[2], Text=[Implementation-defined pragmas should not make an illegal program legal, unless they complete a declaration or configure the @nt{library_item}s in an environment.]}]} @begin(Ramification) For example, it is OK to support Interface, System_Name, Storage_Unit, and Memory_Size @nt{pragma}s for upward compatibility reasons, even though all of these @nt{pragma}s can make an illegal program legal. (The latter three can affect legality in a rather subtle way: They affect the value of named numbers in System, and can therefore affect the legality in cases where static expressions are required.) On the other hand, adding implementation-defined pragmas to a legal program can make it illegal. For example, a common kind of implementation-defined pragma is one that promises some property that allows more efficient code to be generated. If the promise is a lie, it is best if the user gets an error message. @end(Ramification) @end{ImplAdvice} @begin{Incompatible83} @Defn{incompatibilities with Ada 83} In Ada 83, @lquotes@;bad@rquotes@; @nt{pragma}s are ignored. In Ada 95, they are illegal, except in the case where the name of the @nt{pragma} itself is not recognized by the implementation. @end{Incompatible83} @begin{Extend83} @Defn{extensions to Ada 83} Implementation-defined @nt{pragma}s may affect the legality of a program. @end{Extend83} @begin{DiffWord83} Implementation-defined @nt{pragma}s may affect the run-time semantics of the program. This was always true in Ada 83 (since it was not explicitly forbidden by RM83), but it was not clear, because there was no definition of @lquotes@;executing@rquotes@; or @lquotes@;elaborating@rquotes@; a @nt{pragma}. @end{DiffWord83} @begin{Extend2005} @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0163-1]} @ChgAdded{Version=[3],Text=[@Defn{extensions to Ada 2005}@b Allow @nt{pragma}s in place of a @nt{statement}, even if there are no other @nt{statement}s in a @nt{sequence_of_statements}.]} @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0272-1]} @ChgAdded{Version=[3],Text=[Identifiers specific to a pragma can be reserved words.]} @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0290-1]} @ChgAdded{Version=[3],Text=[Pragma arguments can be identified with @nt{aspect_mark}s; this allows @nt{identifier}'Class in this context. As usual, this is only allowed if specifically allowed by a particular pragma.]} @end{Extend2005} @begin{DiffWord2005} @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0100-1]} @ChgAdded{Version=[3],Text=[@b{Correction:} Clarified where @nt{pragma}s are (and are not) allowed.]} @end{DiffWord2005} @begin{DiffWord2012} @ChgRef{Version=[5],Kind=[AddedNormal],ARef=[AI12-0236-1]} @ChgAdded{Version=[5],Text=[Added wording to ensure that @nt{pragma}s are not allowed in @nt{declare_expression}s. We don't allow this as the definition of most pragmas assume that they're given between entities. We also don't want to answer questions about conformance of @nt{pragma}s, especially unrecognized @nt{pragma}s and @nt{pragma}s whose state can change between the specification and body.]} @end{DiffWord2012} @begin{Syntax} @Leading@keepnext@;The forms of List, Page, and Optimize @nt{pragma}s are as follows: @PragmaSyn`@key{pragma} @prag(List)(@Syn2{identifier});' @PragmaSyn`@key{pragma} @prag(Page);' @PragmaSyn`@key{pragma} @prag(Optimize)(@Syn2{identifier});' @begin{SyntaxText} @Redundant[Other pragmas are defined throughout this International Standard, and are summarized in @RefSecNum{Language-Defined Pragmas}.] @begin{Ramification} The language-defined pragmas are supported by every implementation, although @lquotes@;supporting@rquotes@; some of them (for example, Inline) requires nothing more than checking the arguments, since they act only as advice to the implementation. @end{Ramification} @end{SyntaxText} @end{Syntax} @begin{StaticSem} A @nt{pragma} List takes one of the @nt{identifier}s On or Off as the single argument. This pragma is allowed anywhere a @nt{pragma} is allowed. It specifies that listing of the compilation is to be continued or suspended until a List @nt{pragma} with the opposite argument is given within the same compilation. The @nt{pragma} itself is always listed if the compiler is producing a listing. A @nt{pragma} Page is allowed anywhere a @nt{pragma} is allowed. It specifies that the program text which follows the @nt{pragma} should start on a new page (if the compiler is currently producing a listing). A @nt{pragma} Optimize takes one of the @nt{identifier}s Time, Space, or Off as the single argument. This @nt{pragma} is allowed anywhere a @nt is allowed, and it applies until the end of the immediately enclosing declarative region, or for a @nt{pragma} at the place of a @nt{compilation_unit}, to the end of the @nt. It gives advice to the implementation as to whether time or space is the primary optimization criterion, or that optional optimizations should be turned off. @Redundant[It is implementation defined how this advice is followed.] @ImplDef{Effect of pragma Optimize.} @begin{Discussion} For example, a compiler might use Time vs. Space to control whether generic instantiations are implemented with a macro-expansion model, versus a shared-generic-body model. We don't define what constitutes an @lquotes@;optimization@rquotes@; @em in fact, it cannot be formally defined in the context of Ada. One compiler might call something an optional optimization, whereas another compiler might consider that same thing to be a normal part of code generation. Thus, the programmer cannot rely on this pragma having any particular portable effect on the generated code. Some compilers might even ignore the pragma altogether. @end{Discussion} @end{StaticSem} @begin{Examples} @Leading@keepnext@i{Examples of pragmas:} @begin{Example} @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00433-01]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0229-1]} @key[pragma] List(Off); -- @Examcom{turn off listing generation} @key[pragma] Optimize(Off); -- @Examcom{turn off optional optimizations} @Chg{Version=[3],New=[@key[pragma] Pure(Rational_Numbers); -- @Examcom{set categorization for package} @key[pragma] Assert(Exists(File_Name), Message => "Nonexistent file"); -- @Examcom{assert file exists}], Old=[@key[pragma] Inline(Set_Mask); --@Examcom{ generate code for Set_Mask inline} @Chg{Version=[2],New=[@key[pragma] Import(C, Put_Char, External_Name => "putchar"); --@Examcom{ import C putchar function}], Old=[@key[pragma] Suppress(Range_Check, On => Index); -- @Examcom{turn off range checking on Index}]}]} @end{Example} @end{Examples} @begin{Extend83} @Defn{extensions to Ada 83} The Optimize @nt now allows the identifier Off to request that normal optimization be turned off. An Optimize @nt may appear anywhere pragmas are allowed. @end{Extend83} @begin{DiffWord83} We now describe the pragmas Page, List, and Optimize here, to act as examples, and to remove the normative material from @RefSec{Language-Defined Pragmas}, so it can be entirely an informative annex. @end{DiffWord83} @begin{DiffWord95} @ChgRef{Version=[2],Kind=[AddedNormal],ARef=[AI95-00433-01]} @ChgAdded{Version=[2],Text=[Updated the example of named pragma parameters, because the second parameter of @nt{pragma} Suppress is obsolescent.]} @end{DiffWord95} @begin{DiffWord2005} @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0229-1]} @ChgAdded{Version=[3],Text=[Updated the example of pragmas, because both @nt{pragma}s Inline and Import are obsolescent.]} @end{DiffWord2005} @LabeledClause{Reserved Words} @begin{Syntax} @begin{Bundle} @ChgRef{Version=[1], Kind=[Deleted]} @ChgDeleted[Version=[1],Type=[Leading],Text=<@ @;@comment{Empty paragraph to hang junk paragraph number from original RM}>] @ChgRef{Version=[2],Kind=[Revised],ARef=[AI95-00284-02],ARef=[AI95-00395-01]} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0091-1]} @ChgNote{The table of words has no paragraph number, so we need to put the change here} @Leading @Defn{reserved word} The following are the @i{reserved words}@Chg{Version=[2],New=[. Within a program, some or all of the letters of a reserved word may be in upper case@Chg{Version=[3],New=[],Old=[, and one or more characters in category @ntf{other_format} may be inserted within or at the end of the reserved word]}.],Old=[ (ignoring upper/lower case distinctions):]} @begin{Discussion} Reserved words have special meaning in the syntax. In addition, certain reserved words are used as attribute names. The syntactic category @nt{identifier} no longer allows reserved words. We have added the few reserved words that are legal explicitly to the syntax for @nt{attribute_reference}. Allowing identifier to include reserved words has been a source of confusion for some users, and differs from the way they are treated in the C and Pascal language definitions. @end{Discussion} @* @begin{Display} @begin{FourCol} @noparanum@key{abort} @key{abs} @key{abstract} @key{accept} @key{access} @key{aliased} @key{all} @key{and} @key{array} @key{at} @noparanum@key{begin} @key{body} @noparanum@key{case} @key{constant} @noparanum@key{declare} @key{delay} @key{delta} @key{digits} @key{do} @NewColumn @noparanum@key{else} @key{elsif} @key{end} @key{entry} @key{exception} @key{exit} @noparanum@key{for} @key{function} @noparanum@key{generic} @key{goto} @noparanum@key{if} @key{in} @Chg{Version=[2],New=[@key{interface}],Old=[]} @key{is} @noparanum@key{limited} @key{loop} @noparanum@key{mod} @NewColumn @noparanum@key{new} @key{not} @key{null} @noparanum@key{of} @key{or} @key{others} @key{out} @Chg{Version=[2],New=[@key{overriding}],Old=[]} @noparanum@key{package} @Chg{Version=[5],New=[@key{parallel}],Old=[]} @key{pragma} @key{private} @key{procedure} @key{protected} @noparanum@key{raise} @key{range} @key{record} @key{rem} @key{renames} @key{requeue} @NewColumn @noparanum@key{return} @key{reverse} @noparanum@key{select} @key{separate} @Chg{Version=[3],New=[@key{some}],Old=[]} @key{subtype} @Chg{Version=[2],New=[@key{synchronized}],Old=[]} @noparanum@key{tagged} @key{task} @key{terminate} @key{then} @key{type} @noparanum@key{until} @key{use} @noparanum@key{when} @key{while} @key{with} @noparanum@key{xor} @end{FourCol} @end{Display} @end{Bundle} @end{Syntax} @begin{Notes} The reserved words appear in @key{lower case boldface} in this International Standard, except when used in the @nt{designator} of an attribute (see @RefSecNum(Attributes)). Lower case boldface is also used for a reserved word in a @nt{string_literal} used as an @nt{operator_symbol}. This is merely a convention @em programs may be written in whatever typeface is desired and available. @end{Notes} @begin{Incompatible83} @Defn{incompatibilities with Ada 83} The following words are not reserved in Ada 83, but are reserved in Ada 95: @key{abstract}, @key{aliased}, @key{protected}, @key{requeue}, @key{tagged}, @key{until}. @end{Incompatible83} @begin{DiffWord83} @ChgRef{Version=[3],Kind=[Revised],ARef=[AI05-0299-1]} The @Chg{Version=[3],New=[subclause],Old=[clause]} entitled @lquotes@;Allowed Replacements of Characters@rquotes@; has been moved to @RefSec(Obsolescent Features). @end{DiffWord83} @begin{Incompatible95} @ChgRef{Version=[2],Kind=[AddedNormal],ARef=[AI95-00284-02]} @ChgAdded{Version=[2],Text=[@Defn{incompatibilities with Ada 95} The following words are not reserved in Ada 95, but are reserved in Ada 2005: @key{interface}, @key{overriding}, @key{synchronized}. A special allowance is made for @key{pragma} Interface (see @RefSecNum{Pragma Interface}). Uses of these words as identifiers will need to be changed, but we do not expect them to be common.]} @end{Incompatible95} @begin{DiffWord95} @ChgRef{Version=[2],Kind=[AddedNormal],ARef=[AI95-00395-01]} @ChgAdded{Version=[2],Text=[The definition of upper case equivalence has been modified to allow identifiers using all of the characters of ISO 10646. This change has no effect on the character sequences that are reserved words, but does make some unusual sequences of characters illegal.]} @end{DiffWord95} @begin{Incompatible2005} @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0091-1]} @ChgAdded{Version=[3],Text=[@Defn{incompatibilities with Ada 2005}@b Removed @ntf{other_format} characters from reserved words in order to be compatible with the latest Unicode recommendations. This change can only affect programs written for original Ada 2005, and there is little reason to put @ntf{other_format} characters into reserved words in the first place, so there should be very few such programs.]} @ChgRef{Version=[3],Kind=[AddedNormal],ARef=[AI05-0176-1]} @ChgAdded{Version=[3],Text=[The following word is not reserved in Ada 2005, but is reserved in Ada 2012: @key{some}. Uses of this word as an identifier will need to be changed, but we do not expect them to be common.]} @end{Incompatible2005} @begin{Incompatible2012} @ChgRef{Version=[5],Kind=[AddedNormal],ARef=[AI12-0119-1]} @ChgAdded{Version=[5],Text=[@Defn{incompatibilities with Ada 2012}The following word is not reserved in Ada 2012, but is reserved in Ada 202x: @key{parallel}. Uses of this word as an identifier will need to be changed, but we do not expect them to be common.]} @end{Incompatible2012}