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------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- S Y S T E M . U T F _ 3 2 -- -- -- -- S p e c -- -- -- -- Copyright (C) 2005-2011, Free Software Foundation, Inc. -- -- -- -- GNAT is free software; you can redistribute it and/or modify it under -- -- terms of the GNU General Public License as published by the Free Soft- -- -- ware Foundation; either version 3, or (at your option) any later ver- -- -- sion. GNAT is distributed in the hope that it will be useful, but WITH- -- -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY -- -- or FITNESS FOR A PARTICULAR PURPOSE. -- -- -- -- As a special exception under Section 7 of GPL version 3, you are granted -- -- additional permissions described in the GCC Runtime Library Exception, -- -- version 3.1, as published by the Free Software Foundation. -- -- -- -- You should have received a copy of the GNU General Public License and -- -- a copy of the GCC Runtime Library Exception along with this program; -- -- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -- -- <http://www.gnu.org/licenses/>. -- -- -- -- GNAT was originally developed by the GNAT team at New York University. -- -- Extensive contributions were provided by Ada Core Technologies Inc. -- -- -- ------------------------------------------------------------------------------ -- This package is an internal package that provides basic character -- classification capabilities needed by the compiler for handling full -- 32-bit wide wide characters. We avoid the use of the actual type -- Wide_Wide_Character, since we want to use these routines in the compiler -- itself, and we want to be able to compile the compiler with old versions -- of GNAT that did not implement Wide_Wide_Character. -- System.UTF_32 should not be directly used from an application program, but -- an equivalent package GNAT.UTF_32 can be used directly and provides exactly -- the same services. The reason this package is in System is so that it can -- with'ed by other packages in the Ada and System hierarchies. pragma Compiler_Unit; package System.UTF_32 is pragma Pure; type UTF_32 is range 0 .. 16#7FFF_FFFF#; -- So far, the only defined character codes are in 0 .. 16#01_FFFF# -- The following type defines the categories from the unicode definitions. -- The one addition we make is Fe, which represents the characters FFFE -- and FFFF in any of the planes. type Category is ( Cc, -- Other, Control Cf, -- Other, Format Cn, -- Other, Not Assigned Co, -- Other, Private Use Cs, -- Other, Surrogate Ll, -- Letter, Lowercase Lm, -- Letter, Modifier Lo, -- Letter, Other Lt, -- Letter, Titlecase Lu, -- Letter, Uppercase Mc, -- Mark, Spacing Combining Me, -- Mark, Enclosing Mn, -- Mark, Nonspacing Nd, -- Number, Decimal Digit Nl, -- Number, Letter No, -- Number, Other Pc, -- Punctuation, Connector Pd, -- Punctuation, Dash Pe, -- Punctuation, Close Pf, -- Punctuation, Final quote Pi, -- Punctuation, Initial quote Po, -- Punctuation, Other Ps, -- Punctuation, Open Sc, -- Symbol, Currency Sk, -- Symbol, Modifier Sm, -- Symbol, Math So, -- Symbol, Other Zl, -- Separator, Line Zp, -- Separator, Paragraph Zs, -- Separator, Space Fe); -- relative position FFFE/FFFF in any plane function Get_Category (U : UTF_32) return Category; -- Given a UTF32 code, returns corresponding Category, or Cn if -- the code does not have an assigned unicode category. -- The following functions perform category tests corresponding to lexical -- classes defined in the Ada standard. There are two interfaces for each -- function. The second takes a Category (e.g. returned by Get_Category). -- The first takes a UTF_32 code. The form taking the UTF_32 code is -- typically more efficient than calling Get_Category, but if several -- different tests are to be performed on the same code, it is more -- efficient to use Get_Category to get the category, then test the -- resulting category. function Is_UTF_32_Letter (U : UTF_32) return Boolean; function Is_UTF_32_Letter (C : Category) return Boolean; pragma Inline (Is_UTF_32_Letter); -- Returns true iff U is a letter that can be used to start an identifier, -- or if C is one of the corresponding categories, which are the following: -- Letter, Uppercase (Lu) -- Letter, Lowercase (Ll) -- Letter, Titlecase (Lt) -- Letter, Modifier (Lm) -- Letter, Other (Lo) -- Number, Letter (Nl) function Is_UTF_32_Digit (U : UTF_32) return Boolean; function Is_UTF_32_Digit (C : Category) return Boolean; pragma Inline (Is_UTF_32_Digit); -- Returns true iff U is a digit that can be used to extend an identifier, -- or if C is one of the corresponding categories, which are the following: -- Number, Decimal_Digit (Nd) function Is_UTF_32_Line_Terminator (U : UTF_32) return Boolean; pragma Inline (Is_UTF_32_Line_Terminator); -- Returns true iff U is an allowed line terminator for source programs, -- if U is in the category Zp (Separator, Paragraph), or Zl (Separator, -- Line), or if U is a conventional line terminator (CR, LF, VT, FF). -- There is no category version for this function, since the set of -- characters does not correspond to a set of Unicode categories. function Is_UTF_32_Mark (U : UTF_32) return Boolean; function Is_UTF_32_Mark (C : Category) return Boolean; pragma Inline (Is_UTF_32_Mark); -- Returns true iff U is a mark character which can be used to extend an -- identifier, or if C is one of the corresponding categories, which are -- the following: -- Mark, Non-Spacing (Mn) -- Mark, Spacing Combining (Mc) function Is_UTF_32_Other (U : UTF_32) return Boolean; function Is_UTF_32_Other (C : Category) return Boolean; pragma Inline (Is_UTF_32_Other); -- Returns true iff U is an other format character, which means that it -- can be used to extend an identifier, but is ignored for the purposes of -- matching of identifiers, or if C is one of the corresponding categories, -- which are the following: -- Other, Format (Cf) function Is_UTF_32_Punctuation (U : UTF_32) return Boolean; function Is_UTF_32_Punctuation (C : Category) return Boolean; pragma Inline (Is_UTF_32_Punctuation); -- Returns true iff U is a punctuation character that can be used to -- separate pieces of an identifier, or if C is one of the corresponding -- categories, which are the following: -- Punctuation, Connector (Pc) function Is_UTF_32_Space (U : UTF_32) return Boolean; function Is_UTF_32_Space (C : Category) return Boolean; pragma Inline (Is_UTF_32_Space); -- Returns true iff U is considered a space to be ignored, or if C is one -- of the corresponding categories, which are the following: -- Separator, Space (Zs) function Is_UTF_32_Non_Graphic (U : UTF_32) return Boolean; function Is_UTF_32_Non_Graphic (C : Category) return Boolean; pragma Inline (Is_UTF_32_Non_Graphic); -- Returns true iff U is considered to be a non-graphic character, or if C -- is one of the corresponding categories, which are the following: -- Other, Control (Cc) -- Other, Private Use (Co) -- Other, Surrogate (Cs) -- Separator, Line (Zl) -- Separator, Paragraph (Zp) -- FFFE or FFFF positions in any plane (Fe) -- -- Note that the Ada category format effector is subsumed by the above -- list of Unicode categories. -- -- Note that Other, Unassigned (Cn) is quite deliberately not included -- in the list of categories above. This means that should any of these -- code positions be defined in future with graphic characters they will -- be allowed without a need to change implementations or the standard. -- -- Note that Other, Format (Cf) is also quite deliberately not included -- in the list of categories above. This means that these characters can -- be included in character and string literals. -- The following function is used to fold to upper case, as required by -- the Ada 2005 standard rules for identifier case folding. Two -- identifiers are equivalent if they are identical after folding all -- letters to upper case using this routine. A corresponding routine to -- fold to lower case is also provided. function UTF_32_To_Lower_Case (U : UTF_32) return UTF_32; pragma Inline (UTF_32_To_Lower_Case); -- If U represents an upper case letter, returns the corresponding lower -- case letter, otherwise U is returned unchanged. The folding rule is -- simply that if the code corresponds to a 10646 entry whose name contains -- the string CAPITAL LETTER, and there is a corresponding entry whose name -- is the same but with CAPITAL LETTER replaced by SMALL LETTER, then the -- code is folded to this SMALL LETTER code. Otherwise the input code is -- returned unchanged. function UTF_32_To_Upper_Case (U : UTF_32) return UTF_32; pragma Inline (UTF_32_To_Upper_Case); -- If U represents a lower case letter, returns the corresponding lower -- case letter, otherwise U is returned unchanged. The folding rule is -- simply that if the code corresponds to a 10646 entry whose name contains -- the string SMALL LETTER, and there is a corresponding entry whose name -- is the same but with SMALL LETTER replaced by CAPITAL LETTER, then the -- code is folded to this CAPITAL LETTER code. Otherwise the input code is -- returned unchanged. end System.UTF_32;
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