1------------------------------------------------------------------------------ 2-- -- 3-- GNAT COMPILER COMPONENTS -- 4-- -- 5-- U N A M E -- 6-- -- 7-- S p e c -- 8-- -- 9-- Copyright (C) 1992-1998, Free Software Foundation, Inc. -- 10-- -- 11-- GNAT is free software; you can redistribute it and/or modify it under -- 12-- terms of the GNU General Public License as published by the Free Soft- -- 13-- ware Foundation; either version 2, or (at your option) any later ver- -- 14-- sion. GNAT is distributed in the hope that it will be useful, but WITH- -- 15-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY -- 16-- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- 17-- for more details. You should have received a copy of the GNU General -- 18-- Public License distributed with GNAT; see file COPYING. If not, write -- 19-- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, -- 20-- MA 02111-1307, USA. -- 21-- -- 22-- As a special exception, if other files instantiate generics from this -- 23-- unit, or you link this unit with other files to produce an executable, -- 24-- this unit does not by itself cause the resulting executable to be -- 25-- covered by the GNU General Public License. This exception does not -- 26-- however invalidate any other reasons why the executable file might be -- 27-- covered by the GNU Public License. -- 28-- -- 29-- GNAT was originally developed by the GNAT team at New York University. -- 30-- Extensive contributions were provided by Ada Core Technologies Inc. -- 31-- -- 32------------------------------------------------------------------------------ 33 34with Types; use Types; 35package Uname is 36 37 --------------------------- 38 -- Unit Name Conventions -- 39 --------------------------- 40 41 -- Units are associated with a unique ASCII name as follows. First we 42 -- have the fully expanded name of the unit, with lower case letters 43 -- (except for the use of upper case letters for encoding upper half 44 -- and wide characters, as described in Namet), and periods. Following 45 -- this is one of the following suffixes: 46 47 -- %s for package/subprogram/generic declarations (specs) 48 -- %b for package/subprogram/generic bodies and subunits 49 50 -- Unit names are stored in the names table, and referred to by the 51 -- corresponding Name_Id values. The subtype Unit_Name, which is a 52 -- synonym for Name_Id, is used to indicate that a Name_Id value that 53 -- holds a unit name (as defined above) is expected. 54 55 -- Note: as far as possible the conventions for unit names are encapsulated 56 -- in this package. The one exception is that package Fname, which provides 57 -- conversion routines from unit names to file names must be aware of the 58 -- precise conventions that are used. 59 60 ------------------- 61 -- Display Names -- 62 ------------------- 63 64 -- For display purposes, unit names are printed out with the suffix 65 -- " (body)" for a body and " (spec)" for a spec. These formats are 66 -- used for the Write_Unit_Name and Get_Unit_Name_String subprograms. 67 68 ----------------- 69 -- Subprograms -- 70 ----------------- 71 72 function Get_Body_Name (N : Unit_Name_Type) return Unit_Name_Type; 73 -- Given the name of a spec, this function returns the name of the 74 -- corresponding body, i.e. characters %s replaced by %b 75 76 function Get_Parent_Body_Name (N : Unit_Name_Type) return Unit_Name_Type; 77 -- Given the name of a subunit, returns the name of the parent body. 78 79 function Get_Parent_Spec_Name (N : Unit_Name_Type) return Unit_Name_Type; 80 -- Given the name of a child unit spec or body, returns the unit name 81 -- of the parent spec. Returns No_Name if the given name is not the name 82 -- of a child unit. 83 84 procedure Get_External_Unit_Name_String (N : Unit_Name_Type); 85 -- Given the name of a body or spec unit, this procedure places in 86 -- Name_Buffer the name of the unit with periods replaced by double 87 -- underscores. The spec/body indication is eliminated. The length 88 -- of the stored name is placed in Name_Len. All letters are lower 89 -- case, corresponding to the string used in external names. 90 91 function Get_Spec_Name (N : Unit_Name_Type) return Unit_Name_Type; 92 -- Given the name of a body, this function returns the name of the 93 -- corresponding spec, i.e. characters %b replaced by %s 94 95 function Get_Unit_Name (N : Node_Id) return Unit_Name_Type; 96 -- This procedure returns the unit name that corresponds to the given node, 97 -- which is one of the following: 98 -- 99 -- N_Subprogram_Declaration (spec) cases 100 -- N_Package_Declaration 101 -- N_Generic_Declaration 102 -- N_With_Clause 103 -- N_Function_Instantiation 104 -- N_Package_Instantiation 105 -- N_Procedure_Instantiation 106 -- N_Pragma (Elaborate case) 107 -- 108 -- N_Package_Body (body) cases 109 -- N_Subprogram_Body 110 -- N_Identifier 111 -- N_Selected_Component 112 -- 113 -- N_Subprogram_Body_Stub (subunit) cases 114 -- N_Package_Body_Stub 115 -- N_Task_Body_Stub 116 -- N_Protected_Body_Stub 117 -- N_Subunit 118 119 procedure Get_Unit_Name_String (N : Unit_Name_Type); 120 -- Places the display name of the unit in Name_Buffer and sets Name_Len 121 -- to the length of the stored name, i.e. it uses the same interface as 122 -- the Get_Name_String routine in the Namet package. The name contains 123 -- an indication of spec or body, and is decoded. 124 125 function Is_Body_Name (N : Unit_Name_Type) return Boolean; 126 -- Returns True iff the given name is the unit name of a body (i.e. if 127 -- it ends with the characters %b). 128 129 function Is_Child_Name (N : Unit_Name_Type) return Boolean; 130 -- Returns True iff the given name is a child unit name (of either a 131 -- body or a spec). 132 133 function Is_Spec_Name (N : Unit_Name_Type) return Boolean; 134 -- Returns True iff the given name is the unit name of a specification 135 -- (i.e. if it ends with the characters %s). 136 137 function Name_To_Unit_Name (N : Name_Id) return Unit_Name_Type; 138 -- Given the Id of the Ada name of a unit, this function returns the 139 -- corresponding unit name of the spec (by appending %s to the name). 140 141 function New_Child 142 (Old : Unit_Name_Type; 143 Newp : Unit_Name_Type) 144 return Unit_Name_Type; 145 -- Old is a child unit name (for either a body or spec). Newp is the 146 -- unit name of the actual parent (this may be different from the 147 -- parent in old). The returned unit name is formed by taking the 148 -- parent name from Newp and the child unit name from Old, with the 149 -- result being a body or spec depending on Old. For example: 150 -- 151 -- Old = A.B.C (body) 152 -- Newp = A.R (spec) 153 -- result = A.R.C (body) 154 -- 155 -- See spec of Load_Unit for extensive discussion of why this routine 156 -- needs to be used (the call in the body of Load_Unit is the only one). 157 158 function Uname_Ge (Left, Right : Unit_Name_Type) return Boolean; 159 function Uname_Gt (Left, Right : Unit_Name_Type) return Boolean; 160 function Uname_Le (Left, Right : Unit_Name_Type) return Boolean; 161 function Uname_Lt (Left, Right : Unit_Name_Type) return Boolean; 162 -- These functions perform lexicographic ordering of unit names. The 163 -- ordering is suitable for printing, and is not quite a straightforward 164 -- comparison of the names, since the convention is that specs appear 165 -- before bodies. Note that the standard = and /= operators work fine 166 -- because all unit names are hashed into the name table, so if two names 167 -- are the same, they always have the same Name_Id value. 168 169 procedure Write_Unit_Name (N : Unit_Name_Type); 170 -- Given a unit name, this procedure writes the display name to the 171 -- standard output file. Name_Buffer and Name_Len are set as described 172 -- above for the Get_Unit_Name_String call on return. 173 174end Uname; 175