1------------------------------------------------------------------------------ 2-- -- 3-- GNAT COMPILER COMPONENTS -- 4-- -- 5-- L I B . X R E F . S P A R K _ S P E C I F I C -- 6-- -- 7-- B o d y -- 8-- -- 9-- Copyright (C) 2011-2019, 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 3, 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 COPYING3. If not, go to -- 19-- http://www.gnu.org/licenses for a complete copy of the license. -- 20-- -- 21-- GNAT was originally developed by the GNAT team at New York University. -- 22-- Extensive contributions were provided by Ada Core Technologies Inc. -- 23-- -- 24------------------------------------------------------------------------------ 25 26with Einfo; use Einfo; 27with Nmake; use Nmake; 28with SPARK_Xrefs; use SPARK_Xrefs; 29 30separate (Lib.Xref) 31package body SPARK_Specific is 32 33 --------------------- 34 -- Local Constants -- 35 --------------------- 36 37 -- Table of SPARK_Entities, True for each entity kind used in SPARK 38 39 SPARK_Entities : constant array (Entity_Kind) of Boolean := 40 (E_Constant => True, 41 E_Entry => True, 42 E_Function => True, 43 E_In_Out_Parameter => True, 44 E_In_Parameter => True, 45 E_Loop_Parameter => True, 46 E_Operator => True, 47 E_Out_Parameter => True, 48 E_Procedure => True, 49 E_Variable => True, 50 others => False); 51 52 -- True for each reference type used in SPARK 53 54 SPARK_References : constant array (Character) of Boolean := 55 ('m' => True, 56 'r' => True, 57 's' => True, 58 others => False); 59 60 --------------------- 61 -- Local Variables -- 62 --------------------- 63 64 package Drefs is new Table.Table ( 65 Table_Component_Type => Xref_Entry, 66 Table_Index_Type => Xref_Entry_Number, 67 Table_Low_Bound => 1, 68 Table_Initial => Alloc.Drefs_Initial, 69 Table_Increment => Alloc.Drefs_Increment, 70 Table_Name => "Drefs"); 71 -- Table of cross-references for reads and writes through explicit 72 -- dereferences, that are output as reads/writes to the special variable 73 -- "Heap". These references are added to the regular references when 74 -- computing SPARK cross-references. 75 76 ------------------------- 77 -- Iterate_SPARK_Xrefs -- 78 ------------------------- 79 80 procedure Iterate_SPARK_Xrefs is 81 82 procedure Add_SPARK_Xref (Index : Int; Xref : Xref_Entry); 83 84 function Is_SPARK_Reference 85 (E : Entity_Id; 86 Typ : Character) return Boolean; 87 -- Return whether entity reference E meets SPARK requirements. Typ is 88 -- the reference type. 89 90 function Is_SPARK_Scope (E : Entity_Id) return Boolean; 91 -- Return whether the entity or reference scope meets requirements for 92 -- being a SPARK scope. 93 94 -------------------- 95 -- Add_SPARK_Xref -- 96 -------------------- 97 98 procedure Add_SPARK_Xref (Index : Int; Xref : Xref_Entry) is 99 Ref : Xref_Key renames Xref.Key; 100 begin 101 -- Eliminate entries not appropriate for SPARK 102 103 if SPARK_Entities (Ekind (Ref.Ent)) 104 and then SPARK_References (Ref.Typ) 105 and then Is_SPARK_Scope (Ref.Ent_Scope) 106 and then Is_SPARK_Scope (Ref.Ref_Scope) 107 and then Is_SPARK_Reference (Ref.Ent, Ref.Typ) 108 then 109 Process 110 (Index, 111 (Entity => Ref.Ent, 112 Ref_Scope => Ref.Ref_Scope, 113 Rtype => Ref.Typ)); 114 end if; 115 116 end Add_SPARK_Xref; 117 118 ------------------------ 119 -- Is_SPARK_Reference -- 120 ------------------------ 121 122 function Is_SPARK_Reference 123 (E : Entity_Id; 124 Typ : Character) return Boolean 125 is 126 begin 127 -- The only references of interest on callable entities are calls. On 128 -- uncallable entities, the only references of interest are reads and 129 -- writes. 130 131 if Ekind (E) in Overloadable_Kind then 132 return Typ = 's'; 133 134 -- In all other cases, result is true for reference/modify cases, 135 -- and false for all other cases. 136 137 else 138 return Typ = 'r' or else Typ = 'm'; 139 end if; 140 end Is_SPARK_Reference; 141 142 -------------------- 143 -- Is_SPARK_Scope -- 144 -------------------- 145 146 function Is_SPARK_Scope (E : Entity_Id) return Boolean is 147 Can_Be_Renamed : constant Boolean := 148 Present (E) 149 and then (Is_Subprogram_Or_Entry (E) 150 or else Ekind (E) = E_Package); 151 begin 152 return Present (E) 153 and then not Is_Generic_Unit (E) 154 and then (not Can_Be_Renamed or else No (Renamed_Entity (E))); 155 end Is_SPARK_Scope; 156 157 -- Start of processing for Add_SPARK_Xrefs 158 159 begin 160 -- Expose cross-references from private frontend tables to the backend 161 162 for Index in Drefs.First .. Drefs.Last loop 163 Add_SPARK_Xref (Index, Drefs.Table (Index)); 164 end loop; 165 166 for Index in Xrefs.First .. Xrefs.Last loop 167 Add_SPARK_Xref (-Index, Xrefs.Table (Index)); 168 end loop; 169 end Iterate_SPARK_Xrefs; 170 171 --------------------------------------------- 172 -- Enclosing_Subprogram_Or_Library_Package -- 173 --------------------------------------------- 174 175 function Enclosing_Subprogram_Or_Library_Package 176 (N : Node_Id) return Entity_Id 177 is 178 Context : Entity_Id; 179 180 begin 181 -- If N is the defining identifier for a subprogram, then return the 182 -- enclosing subprogram or package, not this subprogram. 183 184 if Nkind_In (N, N_Defining_Identifier, N_Defining_Operator_Symbol) 185 and then (Ekind (N) in Entry_Kind 186 or else Ekind (N) = E_Subprogram_Body 187 or else Ekind (N) in Generic_Subprogram_Kind 188 or else Ekind (N) in Subprogram_Kind) 189 then 190 Context := Parent (Unit_Declaration_Node (N)); 191 192 -- If this was a library-level subprogram then replace Context with 193 -- its Unit, which points to N_Subprogram_* node. 194 195 if Nkind (Context) = N_Compilation_Unit then 196 Context := Unit (Context); 197 end if; 198 else 199 Context := N; 200 end if; 201 202 while Present (Context) loop 203 case Nkind (Context) is 204 when N_Package_Body 205 | N_Package_Specification 206 => 207 -- Only return a library-level package 208 209 if Is_Library_Level_Entity (Defining_Entity (Context)) then 210 Context := Defining_Entity (Context); 211 exit; 212 else 213 Context := Parent (Context); 214 end if; 215 216 when N_Pragma => 217 218 -- The enclosing subprogram for a precondition, postcondition, 219 -- or contract case should be the declaration preceding the 220 -- pragma (skipping any other pragmas between this pragma and 221 -- this declaration. 222 223 while Nkind (Context) = N_Pragma 224 and then Is_List_Member (Context) 225 and then Present (Prev (Context)) 226 loop 227 Context := Prev (Context); 228 end loop; 229 230 if Nkind (Context) = N_Pragma then 231 232 -- When used for cross-references then aspects might not be 233 -- yet linked to pragmas; when used for AST navigation in 234 -- GNATprove this routine is expected to follow those links. 235 236 if From_Aspect_Specification (Context) then 237 Context := Corresponding_Aspect (Context); 238 pragma Assert (Nkind (Context) = N_Aspect_Specification); 239 Context := Entity (Context); 240 else 241 Context := Parent (Context); 242 end if; 243 end if; 244 245 when N_Entry_Body 246 | N_Entry_Declaration 247 | N_Protected_Type_Declaration 248 | N_Subprogram_Body 249 | N_Subprogram_Declaration 250 | N_Subprogram_Specification 251 | N_Task_Body 252 | N_Task_Type_Declaration 253 => 254 Context := Defining_Entity (Context); 255 exit; 256 257 when others => 258 Context := Parent (Context); 259 end case; 260 end loop; 261 262 if Nkind (Context) = N_Defining_Program_Unit_Name then 263 Context := Defining_Identifier (Context); 264 end if; 265 266 -- Do not return a scope without a proper location 267 268 if Present (Context) 269 and then Sloc (Context) = No_Location 270 then 271 return Empty; 272 end if; 273 274 return Context; 275 end Enclosing_Subprogram_Or_Library_Package; 276 277 -------------------------- 278 -- Generate_Dereference -- 279 -------------------------- 280 281 procedure Generate_Dereference 282 (N : Node_Id; 283 Typ : Character := 'r') 284 is 285 procedure Create_Heap; 286 -- Create and decorate the special entity which denotes the heap 287 288 ----------------- 289 -- Create_Heap -- 290 ----------------- 291 292 procedure Create_Heap is 293 begin 294 Name_Len := Name_Of_Heap_Variable'Length; 295 Name_Buffer (1 .. Name_Len) := Name_Of_Heap_Variable; 296 297 Heap := Make_Defining_Identifier (Standard_Location, Name_Enter); 298 299 Set_Ekind (Heap, E_Variable); 300 Set_Is_Internal (Heap, True); 301 Set_Scope (Heap, Standard_Standard); 302 Set_Has_Fully_Qualified_Name (Heap); 303 end Create_Heap; 304 305 -- Local variables 306 307 Loc : constant Source_Ptr := Sloc (N); 308 309 -- Start of processing for Generate_Dereference 310 311 begin 312 if Loc > No_Location then 313 Drefs.Increment_Last; 314 315 declare 316 Deref_Entry : Xref_Entry renames Drefs.Table (Drefs.Last); 317 Deref : Xref_Key renames Deref_Entry.Key; 318 319 begin 320 if No (Heap) then 321 Create_Heap; 322 end if; 323 324 Deref.Ent := Heap; 325 Deref.Loc := Loc; 326 Deref.Typ := Typ; 327 328 -- It is as if the special "Heap" was defined in the main unit, 329 -- in the scope of the entity for the main unit. This single 330 -- definition point is required to ensure that sorting cross 331 -- references works for "Heap" references as well. 332 333 Deref.Eun := Main_Unit; 334 Deref.Lun := Get_Top_Level_Code_Unit (Loc); 335 336 Deref.Ref_Scope := Enclosing_Subprogram_Or_Library_Package (N); 337 Deref.Ent_Scope := Cunit_Entity (Main_Unit); 338 339 Deref_Entry.Def := No_Location; 340 341 Deref_Entry.Ent_Scope_File := Main_Unit; 342 end; 343 end if; 344 end Generate_Dereference; 345 346end SPARK_Specific; 347