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Diffstat (limited to 'gcc-4.4.3/gcc/ada/lib-xref.adb')
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diff --git a/gcc-4.4.3/gcc/ada/lib-xref.adb b/gcc-4.4.3/gcc/ada/lib-xref.adb deleted file mode 100644 index 2ab83c53a..000000000 --- a/gcc-4.4.3/gcc/ada/lib-xref.adb +++ /dev/null @@ -1,2127 +0,0 @@ ------------------------------------------------------------------------------- --- -- --- GNAT COMPILER COMPONENTS -- --- -- --- L I B . X R E F -- --- -- --- B o d y -- --- -- --- Copyright (C) 1998-2008, 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. See the GNU General Public License -- --- for more details. You should have received a copy of the GNU General -- --- Public License distributed with GNAT; see file COPYING3. If not, go to -- --- http://www.gnu.org/licenses for a complete copy of the license. -- --- -- --- GNAT was originally developed by the GNAT team at New York University. -- --- Extensive contributions were provided by Ada Core Technologies Inc. -- --- -- ------------------------------------------------------------------------------- - -with Atree; use Atree; -with Csets; use Csets; -with Elists; use Elists; -with Errout; use Errout; -with Lib.Util; use Lib.Util; -with Nlists; use Nlists; -with Opt; use Opt; -with Restrict; use Restrict; -with Rident; use Rident; -with Sem; use Sem; -with Sem_Prag; use Sem_Prag; -with Sem_Util; use Sem_Util; -with Sem_Warn; use Sem_Warn; -with Sinfo; use Sinfo; -with Sinput; use Sinput; -with Snames; use Snames; -with Stringt; use Stringt; -with Stand; use Stand; -with Table; use Table; -with Widechar; use Widechar; - -with GNAT.Heap_Sort_G; - -package body Lib.Xref is - - ------------------ - -- Declarations -- - ------------------ - - -- The Xref table is used to record references. The Loc field is set - -- to No_Location for a definition entry. - - subtype Xref_Entry_Number is Int; - - type Xref_Entry is record - Ent : Entity_Id; - -- Entity referenced (E parameter to Generate_Reference) - - Def : Source_Ptr; - -- Original source location for entity being referenced. Note that these - -- values are used only during the output process, they are not set when - -- the entries are originally built. This is because private entities - -- can be swapped when the initial call is made. - - Loc : Source_Ptr; - -- Location of reference (Original_Location (Sloc field of N parameter - -- to Generate_Reference). Set to No_Location for the case of a - -- defining occurrence. - - Typ : Character; - -- Reference type (Typ param to Generate_Reference) - - Eun : Unit_Number_Type; - -- Unit number corresponding to Ent - - Lun : Unit_Number_Type; - -- Unit number corresponding to Loc. Value is undefined and not - -- referenced if Loc is set to No_Location. - - end record; - - package Xrefs is new Table.Table ( - Table_Component_Type => Xref_Entry, - Table_Index_Type => Xref_Entry_Number, - Table_Low_Bound => 1, - Table_Initial => Alloc.Xrefs_Initial, - Table_Increment => Alloc.Xrefs_Increment, - Table_Name => "Xrefs"); - - ------------------------- - -- Generate_Definition -- - ------------------------- - - procedure Generate_Definition (E : Entity_Id) is - Loc : Source_Ptr; - Indx : Nat; - - begin - pragma Assert (Nkind (E) in N_Entity); - - -- Note that we do not test Xref_Entity_Letters here. It is too early - -- to do so, since we are often called before the entity is fully - -- constructed, so that the Ekind is still E_Void. - - if Opt.Xref_Active - - -- Definition must come from source - - -- We make an exception for subprogram child units that have no spec. - -- For these we generate a subprogram declaration for library use, - -- and the corresponding entity does not come from source. - -- Nevertheless, all references will be attached to it and we have - -- to treat is as coming from user code. - - and then (Comes_From_Source (E) or else Is_Child_Unit (E)) - - -- And must have a reasonable source location that is not - -- within an instance (all entities in instances are ignored) - - and then Sloc (E) > No_Location - and then Instantiation_Location (Sloc (E)) = No_Location - - -- And must be a non-internal name from the main source unit - - and then In_Extended_Main_Source_Unit (E) - and then not Is_Internal_Name (Chars (E)) - then - Xrefs.Increment_Last; - Indx := Xrefs.Last; - Loc := Original_Location (Sloc (E)); - - Xrefs.Table (Indx).Ent := E; - Xrefs.Table (Indx).Def := No_Location; - Xrefs.Table (Indx).Loc := No_Location; - Xrefs.Table (Indx).Typ := ' '; - Xrefs.Table (Indx).Eun := Get_Source_Unit (Loc); - Xrefs.Table (Indx).Lun := No_Unit; - Set_Has_Xref_Entry (E); - - if In_Inlined_Body then - Set_Referenced (E); - end if; - end if; - end Generate_Definition; - - --------------------------------- - -- Generate_Operator_Reference -- - --------------------------------- - - procedure Generate_Operator_Reference - (N : Node_Id; - T : Entity_Id) - is - begin - if not In_Extended_Main_Source_Unit (N) then - return; - end if; - - -- If the operator is not a Standard operator, then we generate a real - -- reference to the user defined operator. - - if Sloc (Entity (N)) /= Standard_Location then - Generate_Reference (Entity (N), N); - - -- A reference to an implicit inequality operator is also a reference - -- to the user-defined equality. - - if Nkind (N) = N_Op_Ne - and then not Comes_From_Source (Entity (N)) - and then Present (Corresponding_Equality (Entity (N))) - then - Generate_Reference (Corresponding_Equality (Entity (N)), N); - end if; - - -- For the case of Standard operators, we mark the result type as - -- referenced. This ensures that in the case where we are using a - -- derived operator, we mark an entity of the unit that implicitly - -- defines this operator as used. Otherwise we may think that no entity - -- of the unit is used. The actual entity marked as referenced is the - -- first subtype, which is the relevant user defined entity. - - -- Note: we only do this for operators that come from source. The - -- generated code sometimes reaches for entities that do not need to be - -- explicitly visible (for example, when we expand the code for - -- comparing two record objects, the fields of the record may not be - -- visible). - - elsif Comes_From_Source (N) then - Set_Referenced (First_Subtype (T)); - end if; - end Generate_Operator_Reference; - - ------------------------ - -- Generate_Reference -- - ------------------------ - - procedure Generate_Reference - (E : Entity_Id; - N : Node_Id; - Typ : Character := 'r'; - Set_Ref : Boolean := True; - Force : Boolean := False) - is - Indx : Nat; - Nod : Node_Id; - Ref : Source_Ptr; - Def : Source_Ptr; - Ent : Entity_Id; - - Call : Node_Id; - Formal : Entity_Id; - -- Used for call to Find_Actual - - Kind : Entity_Kind; - -- If Formal is non-Empty, then its Ekind, otherwise E_Void - - function Is_On_LHS (Node : Node_Id) return Boolean; - -- Used to check if a node is on the left hand side of an assignment. - -- The following cases are handled: - -- - -- Variable Node is a direct descendant of left hand side of an - -- assignment statement. - -- - -- Prefix Of an indexed or selected component that is present in - -- a subtree rooted by an assignment statement. There is - -- no restriction of nesting of components, thus cases - -- such as A.B (C).D are handled properly. However a prefix - -- of a dereference (either implicit or explicit) is never - -- considered as on a LHS. - -- - -- Out param Same as above cases, but OUT parameter - - function OK_To_Set_Referenced return Boolean; - -- Returns True if the Referenced flag can be set. There are a few - -- exceptions where we do not want to set this flag, see body for - -- details of these exceptional cases. - - --------------- - -- Is_On_LHS -- - --------------- - - -- ??? There are several routines here and there that perform a similar - -- (but subtly different) computation, which should be factored: - - -- Sem_Util.May_Be_Lvalue - -- Sem_Util.Known_To_Be_Assigned - -- Exp_Ch2.Expand_Entry_Parameter.In_Assignment_Context - -- Exp_Smem.Is_Out_Actual - - function Is_On_LHS (Node : Node_Id) return Boolean is - N : Node_Id; - P : Node_Id; - K : Node_Kind; - - begin - -- Only identifiers are considered, is this necessary??? - - if Nkind (Node) /= N_Identifier then - return False; - end if; - - -- Immediate return if appeared as OUT parameter - - if Kind = E_Out_Parameter then - return True; - end if; - - -- Search for assignment statement subtree root - - N := Node; - loop - P := Parent (N); - K := Nkind (P); - - if K = N_Assignment_Statement then - return Name (P) = N; - - -- Check whether the parent is a component and the current node is - -- its prefix, but return False if the current node has an access - -- type, as in that case the selected or indexed component is an - -- implicit dereference, and the LHS is the designated object, not - -- the access object. - - -- ??? case of a slice assignment? - - -- ??? Note that in some cases this is called too early - -- (see comments in Sem_Ch8.Find_Direct_Name), at a point where - -- the tree is not fully typed yet. In that case we may lack - -- an Etype for N, and we must disable the check for an implicit - -- dereference. If the dereference is on an LHS, this causes a - -- false positive. - - elsif (K = N_Selected_Component or else K = N_Indexed_Component) - and then Prefix (P) = N - and then not (Present (Etype (N)) - and then - Is_Access_Type (Etype (N))) - then - N := P; - - -- All other cases, definitely not on left side - - else - return False; - end if; - end loop; - end Is_On_LHS; - - --------------------------- - -- OK_To_Set_Referenced -- - --------------------------- - - function OK_To_Set_Referenced return Boolean is - P : Node_Id; - - begin - -- A reference from a pragma Unreferenced or pragma Unmodified or - -- pragma Warnings does not cause the Referenced flag to be set. - -- This avoids silly warnings about things being referenced and - -- not assigned when the only reference is from the pragma. - - if Nkind (N) = N_Identifier then - P := Parent (N); - - if Nkind (P) = N_Pragma_Argument_Association then - P := Parent (P); - - if Nkind (P) = N_Pragma then - if Pragma_Name (P) = Name_Warnings - or else - Pragma_Name (P) = Name_Unmodified - or else - Pragma_Name (P) = Name_Unreferenced - then - return False; - end if; - end if; - end if; - end if; - - return True; - end OK_To_Set_Referenced; - - -- Start of processing for Generate_Reference - - begin - pragma Assert (Nkind (E) in N_Entity); - Find_Actual (N, Formal, Call); - - if Present (Formal) then - Kind := Ekind (Formal); - else - Kind := E_Void; - end if; - - -- Check for obsolescent reference to package ASCII. GNAT treats this - -- element of annex J specially since in practice, programs make a lot - -- of use of this feature, so we don't include it in the set of features - -- diagnosed when Warn_On_Obsolescent_Features mode is set. However we - -- are required to note it as a violation of the RM defined restriction. - - if E = Standard_ASCII then - Check_Restriction (No_Obsolescent_Features, N); - end if; - - -- Check for reference to entity marked with Is_Obsolescent - - -- Note that we always allow obsolescent references in the compiler - -- itself and the run time, since we assume that we know what we are - -- doing in such cases. For example the calls in Ada.Characters.Handling - -- to its own obsolescent subprograms are just fine. - - -- In any case we do not generate warnings within the extended source - -- unit of the entity in question, since we assume the source unit - -- itself knows what is going on (and for sure we do not want silly - -- warnings, e.g. on the end line of an obsolescent procedure body). - - if Is_Obsolescent (E) - and then not GNAT_Mode - and then not In_Extended_Main_Source_Unit (E) - then - Check_Restriction (No_Obsolescent_Features, N); - - if Warn_On_Obsolescent_Feature then - Output_Obsolescent_Entity_Warnings (N, E); - end if; - end if; - - -- Warn if reference to Ada 2005 entity not in Ada 2005 mode. We only - -- detect real explicit references (modifications and references). - - if Comes_From_Source (N) - and then Is_Ada_2005_Only (E) - and then Ada_Version < Ada_05 - and then Warn_On_Ada_2005_Compatibility - and then (Typ = 'm' or else Typ = 'r') - then - Error_Msg_NE ("& is only defined in Ada 2005?", N, E); - end if; - - -- Never collect references if not in main source unit. However, we omit - -- this test if Typ is 'e' or 'k', since these entries are structural, - -- and it is useful to have them in units that reference packages as - -- well as units that define packages. We also omit the test for the - -- case of 'p' since we want to include inherited primitive operations - -- from other packages. - - -- We also omit this test is this is a body reference for a subprogram - -- instantiation. In this case the reference is to the generic body, - -- which clearly need not be in the main unit containing the instance. - -- For the same reason we accept an implicit reference generated for - -- a default in an instance. - - if not In_Extended_Main_Source_Unit (N) then - if Typ = 'e' - or else Typ = 'p' - or else Typ = 'i' - or else Typ = 'k' - or else (Typ = 'b' and then Is_Generic_Instance (E)) - then - null; - else - return; - end if; - end if; - - -- For reference type p, the entity must be in main source unit - - if Typ = 'p' and then not In_Extended_Main_Source_Unit (E) then - return; - end if; - - -- Unless the reference is forced, we ignore references where the - -- reference itself does not come from source. - - if not Force and then not Comes_From_Source (N) then - return; - end if; - - -- Deal with setting entity as referenced, unless suppressed. Note that - -- we still do Set_Referenced on entities that do not come from source. - -- This situation arises when we have a source reference to a derived - -- operation, where the derived operation itself does not come from - -- source, but we still want to mark it as referenced, since we really - -- are referencing an entity in the corresponding package (this avoids - -- wrong complaints that the package contains no referenced entities). - - if Set_Ref then - - -- Assignable object appearing on left side of assignment or as - -- an out parameter. - - if Is_Assignable (E) - and then Is_On_LHS (N) - and then Ekind (E) /= E_In_Out_Parameter - then - -- For objects that are renamings, just set as simply referenced - -- we do not try to do assignment type tracking in this case. - - if Present (Renamed_Object (E)) then - Set_Referenced (E); - - -- Out parameter case - - elsif Kind = E_Out_Parameter then - - -- If warning mode for all out parameters is set, or this is - -- the only warning parameter, then we want to mark this for - -- later warning logic by setting Referenced_As_Out_Parameter - - if Warn_On_Modified_As_Out_Parameter (Formal) then - Set_Referenced_As_Out_Parameter (E, True); - Set_Referenced_As_LHS (E, False); - - -- For OUT parameter not covered by the above cases, we simply - -- regard it as a normal reference (in this case we do not - -- want any of the warning machinery for out parameters). - - else - Set_Referenced (E); - end if; - - -- For the left hand of an assignment case, we do nothing here. - -- The processing for Analyze_Assignment_Statement will set the - -- Referenced_As_LHS flag. - - else - null; - end if; - - -- Check for a reference in a pragma that should not count as a - -- making the variable referenced for warning purposes. - - elsif Is_Non_Significant_Pragma_Reference (N) then - null; - - -- A reference in an attribute definition clause does not count as a - -- reference except for the case of Address. The reason that 'Address - -- is an exception is that it creates an alias through which the - -- variable may be referenced. - - elsif Nkind (Parent (N)) = N_Attribute_Definition_Clause - and then Chars (Parent (N)) /= Name_Address - and then N = Name (Parent (N)) - then - null; - - -- Constant completion does not count as a reference - - elsif Typ = 'c' - and then Ekind (E) = E_Constant - then - null; - - -- Record representation clause does not count as a reference - - elsif Nkind (N) = N_Identifier - and then Nkind (Parent (N)) = N_Record_Representation_Clause - then - null; - - -- Discriminants do not need to produce a reference to record type - - elsif Typ = 'd' - and then Nkind (Parent (N)) = N_Discriminant_Specification - then - null; - - -- All other cases - - else - -- Special processing for IN OUT parameters, where we have an - -- implicit assignment to a simple variable. - - if Kind = E_In_Out_Parameter - and then Is_Assignable (E) - then - -- For sure this counts as a normal read reference - - Set_Referenced (E); - Set_Last_Assignment (E, Empty); - - -- We count it as being referenced as an out parameter if the - -- option is set to warn on all out parameters, except that we - -- have a special exclusion for an intrinsic subprogram, which - -- is most likely an instantiation of Unchecked_Deallocation - -- which we do not want to consider as an assignment since it - -- generates false positives. We also exclude the case of an - -- IN OUT parameter if the name of the procedure is Free, - -- since we suspect similar semantics. - - if Warn_On_All_Unread_Out_Parameters - and then Is_Entity_Name (Name (Call)) - and then not Is_Intrinsic_Subprogram (Entity (Name (Call))) - and then Chars (Name (Call)) /= Name_Free - then - Set_Referenced_As_Out_Parameter (E, True); - Set_Referenced_As_LHS (E, False); - end if; - - -- Any other occurrence counts as referencing the entity - - elsif OK_To_Set_Referenced then - Set_Referenced (E); - - -- If variable, this is an OK reference after an assignment - -- so we can clear the Last_Assignment indication. - - if Is_Assignable (E) then - Set_Last_Assignment (E, Empty); - end if; - end if; - end if; - - -- Check for pragma Unreferenced given and reference is within - -- this source unit (occasion for possible warning to be issued). - - if Has_Pragma_Unreferenced (E) - and then In_Same_Extended_Unit (E, N) - then - -- A reference as a named parameter in a call does not count - -- as a violation of pragma Unreferenced for this purpose... - - if Nkind (N) = N_Identifier - and then Nkind (Parent (N)) = N_Parameter_Association - and then Selector_Name (Parent (N)) = N - then - null; - - -- ... Neither does a reference to a variable on the left side - -- of an assignment. - - elsif Is_On_LHS (N) then - null; - - -- For entry formals, we want to place the warning message on the - -- corresponding entity in the accept statement. The current scope - -- is the body of the accept, so we find the formal whose name - -- matches that of the entry formal (there is no link between the - -- two entities, and the one in the accept statement is only used - -- for conformance checking). - - elsif Ekind (Scope (E)) = E_Entry then - declare - BE : Entity_Id; - - begin - BE := First_Entity (Current_Scope); - while Present (BE) loop - if Chars (BE) = Chars (E) then - Error_Msg_NE - ("?pragma Unreferenced given for&!", N, BE); - exit; - end if; - - Next_Entity (BE); - end loop; - end; - - -- Here we issue the warning, since this is a real reference - - else - Error_Msg_NE ("?pragma Unreferenced given for&!", N, E); - end if; - end if; - - -- If this is a subprogram instance, mark as well the internal - -- subprogram in the wrapper package, which may be a visible - -- compilation unit. - - if Is_Overloadable (E) - and then Is_Generic_Instance (E) - and then Present (Alias (E)) - then - Set_Referenced (Alias (E)); - end if; - end if; - - -- Generate reference if all conditions are met: - - if - -- Cross referencing must be active - - Opt.Xref_Active - - -- The entity must be one for which we collect references - - and then Xref_Entity_Letters (Ekind (E)) /= ' ' - - -- Both Sloc values must be set to something sensible - - and then Sloc (E) > No_Location - and then Sloc (N) > No_Location - - -- We ignore references from within an instance - - and then Instantiation_Location (Sloc (N)) = No_Location - - -- Ignore dummy references - - and then Typ /= ' ' - then - if Nkind (N) = N_Identifier - or else - Nkind (N) = N_Defining_Identifier - or else - Nkind (N) in N_Op - or else - Nkind (N) = N_Defining_Operator_Symbol - or else - Nkind (N) = N_Operator_Symbol - or else - (Nkind (N) = N_Character_Literal - and then Sloc (Entity (N)) /= Standard_Location) - or else - Nkind (N) = N_Defining_Character_Literal - then - Nod := N; - - elsif Nkind (N) = N_Expanded_Name - or else - Nkind (N) = N_Selected_Component - then - Nod := Selector_Name (N); - - else - return; - end if; - - -- Normal case of source entity comes from source - - if Comes_From_Source (E) then - Ent := E; - - -- Entity does not come from source, but is a derived subprogram and - -- the derived subprogram comes from source (after one or more - -- derivations) in which case the reference is to parent subprogram. - - elsif Is_Overloadable (E) - and then Present (Alias (E)) - then - Ent := Alias (E); - while not Comes_From_Source (Ent) loop - if No (Alias (Ent)) then - return; - end if; - - Ent := Alias (Ent); - end loop; - - -- The internally created defining entity for a child subprogram - -- that has no previous spec has valid references. - - elsif Is_Overloadable (E) - and then Is_Child_Unit (E) - then - Ent := E; - - -- Record components of discriminated subtypes or derived types must - -- be treated as references to the original component. - - elsif Ekind (E) = E_Component - and then Comes_From_Source (Original_Record_Component (E)) - then - Ent := Original_Record_Component (E); - - -- If this is an expanded reference to a discriminant, recover the - -- original discriminant, which gets the reference. - - elsif Ekind (E) = E_In_Parameter - and then Present (Discriminal_Link (E)) - then - Ent := Discriminal_Link (E); - Set_Referenced (Ent); - - -- Ignore reference to any other entity that is not from source - - else - return; - end if; - - -- Record reference to entity - - Ref := Original_Location (Sloc (Nod)); - Def := Original_Location (Sloc (Ent)); - - Xrefs.Increment_Last; - Indx := Xrefs.Last; - - Xrefs.Table (Indx).Loc := Ref; - - -- Overriding operations are marked with 'P' - - if Typ = 'p' - and then Is_Subprogram (N) - and then Is_Overriding_Operation (N) - then - Xrefs.Table (Indx).Typ := 'P'; - else - Xrefs.Table (Indx).Typ := Typ; - end if; - - Xrefs.Table (Indx).Eun := Get_Source_Unit (Def); - Xrefs.Table (Indx).Lun := Get_Source_Unit (Ref); - Xrefs.Table (Indx).Ent := Ent; - Set_Has_Xref_Entry (Ent); - end if; - end Generate_Reference; - - ----------------------------------- - -- Generate_Reference_To_Formals -- - ----------------------------------- - - procedure Generate_Reference_To_Formals (E : Entity_Id) is - Formal : Entity_Id; - - begin - if Is_Generic_Subprogram (E) then - Formal := First_Entity (E); - - while Present (Formal) - and then not Is_Formal (Formal) - loop - Next_Entity (Formal); - end loop; - - else - Formal := First_Formal (E); - end if; - - while Present (Formal) loop - if Ekind (Formal) = E_In_Parameter then - - if Nkind (Parameter_Type (Parent (Formal))) - = N_Access_Definition - then - Generate_Reference (E, Formal, '^', False); - else - Generate_Reference (E, Formal, '>', False); - end if; - - elsif Ekind (Formal) = E_In_Out_Parameter then - Generate_Reference (E, Formal, '=', False); - - else - Generate_Reference (E, Formal, '<', False); - end if; - - Next_Formal (Formal); - end loop; - end Generate_Reference_To_Formals; - - ------------------------------------------- - -- Generate_Reference_To_Generic_Formals -- - ------------------------------------------- - - procedure Generate_Reference_To_Generic_Formals (E : Entity_Id) is - Formal : Entity_Id; - - begin - Formal := First_Entity (E); - while Present (Formal) loop - if Comes_From_Source (Formal) then - Generate_Reference (E, Formal, 'z', False); - end if; - - Next_Entity (Formal); - end loop; - end Generate_Reference_To_Generic_Formals; - - ---------------- - -- Initialize -- - ---------------- - - procedure Initialize is - begin - Xrefs.Init; - end Initialize; - - ----------------------- - -- Output_References -- - ----------------------- - - procedure Output_References is - - procedure Get_Type_Reference - (Ent : Entity_Id; - Tref : out Entity_Id; - Left : out Character; - Right : out Character); - -- Given an Entity_Id Ent, determines whether a type reference is - -- required. If so, Tref is set to the entity for the type reference - -- and Left and Right are set to the left/right brackets to be output - -- for the reference. If no type reference is required, then Tref is - -- set to Empty, and Left/Right are set to space. - - procedure Output_Import_Export_Info (Ent : Entity_Id); - -- Output language and external name information for an interfaced - -- entity, using the format <language, external_name>, - - ------------------------ - -- Get_Type_Reference -- - ------------------------ - - procedure Get_Type_Reference - (Ent : Entity_Id; - Tref : out Entity_Id; - Left : out Character; - Right : out Character) - is - Sav : Entity_Id; - - begin - -- See if we have a type reference - - Tref := Ent; - Left := '{'; - Right := '}'; - - loop - Sav := Tref; - - -- Processing for types - - if Is_Type (Tref) then - - -- Case of base type - - if Base_Type (Tref) = Tref then - - -- If derived, then get first subtype - - if Tref /= Etype (Tref) then - Tref := First_Subtype (Etype (Tref)); - - -- Set brackets for derived type, but don't override - -- pointer case since the fact that something is a - -- pointer is more important. - - if Left /= '(' then - Left := '<'; - Right := '>'; - end if; - - -- If non-derived ptr, get directly designated type. - -- If the type has a full view, all references are on the - -- partial view, that is seen first. - - elsif Is_Access_Type (Tref) then - Tref := Directly_Designated_Type (Tref); - Left := '('; - Right := ')'; - - elsif Is_Private_Type (Tref) - and then Present (Full_View (Tref)) - then - if Is_Access_Type (Full_View (Tref)) then - Tref := Directly_Designated_Type (Full_View (Tref)); - Left := '('; - Right := ')'; - - -- If the full view is an array type, we also retrieve - -- the corresponding component type, because the ali - -- entry already indicates that this is an array. - - elsif Is_Array_Type (Full_View (Tref)) then - Tref := Component_Type (Full_View (Tref)); - Left := '('; - Right := ')'; - end if; - - -- If non-derived array, get component type. Skip component - -- type for case of String or Wide_String, saves worthwhile - -- space. - - elsif Is_Array_Type (Tref) - and then Tref /= Standard_String - and then Tref /= Standard_Wide_String - then - Tref := Component_Type (Tref); - Left := '('; - Right := ')'; - - -- For other non-derived base types, nothing - - else - exit; - end if; - - -- For a subtype, go to ancestor subtype - - else - Tref := Ancestor_Subtype (Tref); - - -- If no ancestor subtype, go to base type - - if No (Tref) then - Tref := Base_Type (Sav); - end if; - end if; - - -- For objects, functions, enum literals, just get type from - -- Etype field. - - elsif Is_Object (Tref) - or else Ekind (Tref) = E_Enumeration_Literal - or else Ekind (Tref) = E_Function - or else Ekind (Tref) = E_Operator - then - Tref := Etype (Tref); - - -- For anything else, exit - - else - exit; - end if; - - -- Exit if no type reference, or we are stuck in some loop trying - -- to find the type reference, or if the type is standard void - -- type (the latter is an implementation artifact that should not - -- show up in the generated cross-references). - - exit when No (Tref) - or else Tref = Sav - or else Tref = Standard_Void_Type; - - -- If we have a usable type reference, return, otherwise keep - -- looking for something useful (we are looking for something - -- that either comes from source or standard) - - if Sloc (Tref) = Standard_Location - or else Comes_From_Source (Tref) - then - -- If the reference is a subtype created for a generic actual, - -- go actual directly, the inner subtype is not user visible. - - if Nkind (Parent (Tref)) = N_Subtype_Declaration - and then not Comes_From_Source (Parent (Tref)) - and then - (Is_Wrapper_Package (Scope (Tref)) - or else Is_Generic_Instance (Scope (Tref))) - then - Tref := First_Subtype (Base_Type (Tref)); - end if; - - return; - end if; - end loop; - - -- If we fall through the loop, no type reference - - Tref := Empty; - Left := ' '; - Right := ' '; - end Get_Type_Reference; - - ------------------------------- - -- Output_Import_Export_Info -- - ------------------------------- - - procedure Output_Import_Export_Info (Ent : Entity_Id) is - Language_Name : Name_Id; - Conv : constant Convention_Id := Convention (Ent); - - begin - -- Generate language name from convention - - if Conv = Convention_C then - Language_Name := Name_C; - - elsif Conv = Convention_CPP then - Language_Name := Name_CPP; - - elsif Conv = Convention_Ada then - Language_Name := Name_Ada; - - else - -- For the moment we ignore all other cases ??? - - return; - end if; - - Write_Info_Char ('<'); - Get_Unqualified_Name_String (Language_Name); - - for J in 1 .. Name_Len loop - Write_Info_Char (Name_Buffer (J)); - end loop; - - if Present (Interface_Name (Ent)) then - Write_Info_Char (','); - String_To_Name_Buffer (Strval (Interface_Name (Ent))); - - for J in 1 .. Name_Len loop - Write_Info_Char (Name_Buffer (J)); - end loop; - end if; - - Write_Info_Char ('>'); - end Output_Import_Export_Info; - - -- Start of processing for Output_References - - begin - if not Opt.Xref_Active then - return; - end if; - - -- Before we go ahead and output the references we have a problem - -- that needs dealing with. So far we have captured things that are - -- definitely referenced by the main unit, or defined in the main - -- unit. That's because we don't want to clutter up the ali file - -- for this unit with definition lines for entities in other units - -- that are not referenced. - - -- But there is a glitch. We may reference an entity in another unit, - -- and it may have a type reference to an entity that is not directly - -- referenced in the main unit, which may mean that there is no xref - -- entry for this entity yet in the list of references. - - -- If we don't do something about this, we will end with an orphan type - -- reference, i.e. it will point to an entity that does not appear - -- within the generated references in the ali file. That is not good for - -- tools using the xref information. - - -- To fix this, we go through the references adding definition entries - -- for any unreferenced entities that can be referenced in a type - -- reference. There is a recursion problem here, and that is dealt with - -- by making sure that this traversal also traverses any entries that - -- get added by the traversal. - - Handle_Orphan_Type_References : declare - J : Nat; - Tref : Entity_Id; - Indx : Nat; - Ent : Entity_Id; - Loc : Source_Ptr; - - L, R : Character; - pragma Warnings (Off, L); - pragma Warnings (Off, R); - - procedure New_Entry (E : Entity_Id); - -- Make an additional entry into the Xref table for a type entity - -- that is related to the current entity (parent, type ancestor, - -- progenitor, etc.). - - ---------------- - -- New_Entry -- - ---------------- - - procedure New_Entry (E : Entity_Id) is - begin - if Present (E) - and then not Has_Xref_Entry (E) - and then Sloc (E) > No_Location - then - Xrefs.Increment_Last; - Indx := Xrefs.Last; - Loc := Original_Location (Sloc (E)); - Xrefs.Table (Indx).Ent := E; - Xrefs.Table (Indx).Loc := No_Location; - Xrefs.Table (Indx).Eun := Get_Source_Unit (Loc); - Xrefs.Table (Indx).Lun := No_Unit; - Set_Has_Xref_Entry (E); - end if; - end New_Entry; - - -- Start of processing for Handle_Orphan_Type_References - - begin - -- Note that this is not a for loop for a very good reason. The - -- processing of items in the table can add new items to the table, - -- and they must be processed as well. - - J := 1; - while J <= Xrefs.Last loop - Ent := Xrefs.Table (J).Ent; - Get_Type_Reference (Ent, Tref, L, R); - - if Present (Tref) - and then not Has_Xref_Entry (Tref) - and then Sloc (Tref) > No_Location - then - New_Entry (Tref); - - if Is_Record_Type (Ent) - and then Present (Interfaces (Ent)) - then - -- Add an entry for each one of the given interfaces - -- implemented by type Ent. - - declare - Elmt : Elmt_Id := First_Elmt (Interfaces (Ent)); - begin - while Present (Elmt) loop - New_Entry (Node (Elmt)); - Next_Elmt (Elmt); - end loop; - end; - end if; - end if; - - -- Collect inherited primitive operations that may be declared in - -- another unit and have no visible reference in the current one. - - if Is_Type (Ent) - and then Is_Tagged_Type (Ent) - and then Is_Derived_Type (Ent) - and then Ent = Base_Type (Ent) - and then In_Extended_Main_Source_Unit (Ent) - then - declare - Op_List : constant Elist_Id := Primitive_Operations (Ent); - Op : Elmt_Id; - Prim : Entity_Id; - - function Parent_Op (E : Entity_Id) return Entity_Id; - -- Find original operation, which may be inherited through - -- several derivations. - - function Parent_Op (E : Entity_Id) return Entity_Id is - Orig_Op : constant Entity_Id := Alias (E); - begin - if No (Orig_Op) then - return Empty; - elsif not Comes_From_Source (E) - and then not Has_Xref_Entry (Orig_Op) - and then Comes_From_Source (Orig_Op) - then - return Orig_Op; - else - return Parent_Op (Orig_Op); - end if; - end Parent_Op; - - begin - Op := First_Elmt (Op_List); - while Present (Op) loop - Prim := Parent_Op (Node (Op)); - - if Present (Prim) then - Xrefs.Increment_Last; - Indx := Xrefs.Last; - Loc := Original_Location (Sloc (Prim)); - Xrefs.Table (Indx).Ent := Prim; - Xrefs.Table (Indx).Loc := No_Location; - Xrefs.Table (Indx).Eun := - Get_Source_Unit (Sloc (Prim)); - Xrefs.Table (Indx).Lun := No_Unit; - Set_Has_Xref_Entry (Prim); - end if; - - Next_Elmt (Op); - end loop; - end; - end if; - - J := J + 1; - end loop; - end Handle_Orphan_Type_References; - - -- Now we have all the references, including those for any embedded - -- type references, so we can sort them, and output them. - - Output_Refs : declare - - Nrefs : Nat := Xrefs.Last; - -- Number of references in table. This value may get reset (reduced) - -- when we eliminate duplicate reference entries. - - Rnums : array (0 .. Nrefs) of Nat; - -- This array contains numbers of references in the Xrefs table. - -- This list is sorted in output order. The extra 0'th entry is - -- convenient for the call to sort. When we sort the table, we - -- move the entries in Rnums around, but we do not move the - -- original table entries. - - Curxu : Unit_Number_Type; - -- Current xref unit - - Curru : Unit_Number_Type; - -- Current reference unit for one entity - - Cursrc : Source_Buffer_Ptr; - -- Current xref unit source text - - Curent : Entity_Id; - -- Current entity - - Curnam : String (1 .. Name_Buffer'Length); - Curlen : Natural; - -- Simple name and length of current entity - - Curdef : Source_Ptr; - -- Original source location for current entity - - Crloc : Source_Ptr; - -- Current reference location - - Ctyp : Character; - -- Entity type character - - Tref : Entity_Id; - -- Type reference - - Rref : Node_Id; - -- Renaming reference - - Trunit : Unit_Number_Type; - -- Unit number for type reference - - function Lt (Op1, Op2 : Natural) return Boolean; - -- Comparison function for Sort call - - function Name_Change (X : Entity_Id) return Boolean; - -- Determines if entity X has a different simple name from Curent - - procedure Move (From : Natural; To : Natural); - -- Move procedure for Sort call - - package Sorting is new GNAT.Heap_Sort_G (Move, Lt); - - -------- - -- Lt -- - -------- - - function Lt (Op1, Op2 : Natural) return Boolean is - T1 : Xref_Entry renames Xrefs.Table (Rnums (Nat (Op1))); - T2 : Xref_Entry renames Xrefs.Table (Rnums (Nat (Op2))); - - begin - -- First test: if entity is in different unit, sort by unit - - if T1.Eun /= T2.Eun then - return Dependency_Num (T1.Eun) < Dependency_Num (T2.Eun); - - -- Second test: within same unit, sort by entity Sloc - - elsif T1.Def /= T2.Def then - return T1.Def < T2.Def; - - -- Third test: sort definitions ahead of references - - elsif T1.Loc = No_Location then - return True; - - elsif T2.Loc = No_Location then - return False; - - -- Fourth test: for same entity, sort by reference location unit - - elsif T1.Lun /= T2.Lun then - return Dependency_Num (T1.Lun) < Dependency_Num (T2.Lun); - - -- Fifth test: order of location within referencing unit - - elsif T1.Loc /= T2.Loc then - return T1.Loc < T2.Loc; - - -- Finally, for two locations at the same address, we prefer - -- the one that does NOT have the type 'r' so that a modification - -- or extension takes preference, when there are more than one - -- reference at the same location. - - else - return T2.Typ = 'r'; - end if; - end Lt; - - ---------- - -- Move -- - ---------- - - procedure Move (From : Natural; To : Natural) is - begin - Rnums (Nat (To)) := Rnums (Nat (From)); - end Move; - - ----------------- - -- Name_Change -- - ----------------- - - -- Why a string comparison here??? Why not compare Name_Id values??? - - function Name_Change (X : Entity_Id) return Boolean is - begin - Get_Unqualified_Name_String (Chars (X)); - - if Name_Len /= Curlen then - return True; - - else - return Name_Buffer (1 .. Curlen) /= Curnam (1 .. Curlen); - end if; - end Name_Change; - - -- Start of processing for Output_Refs - - begin - -- Capture the definition Sloc values. We delay doing this till now, - -- since at the time the reference or definition is made, private - -- types may be swapped, and the Sloc value may be incorrect. We - -- also set up the pointer vector for the sort. - - for J in 1 .. Nrefs loop - Rnums (J) := J; - Xrefs.Table (J).Def := - Original_Location (Sloc (Xrefs.Table (J).Ent)); - end loop; - - -- Sort the references - - Sorting.Sort (Integer (Nrefs)); - - -- Eliminate duplicate entries - - declare - NR : constant Nat := Nrefs; - - begin - -- We need this test for NR because if we force ALI file - -- generation in case of errors detected, it may be the case - -- that Nrefs is 0, so we should not reset it here - - if NR >= 2 then - Nrefs := 1; - - for J in 2 .. NR loop - if Xrefs.Table (Rnums (J)) /= - Xrefs.Table (Rnums (Nrefs)) - then - Nrefs := Nrefs + 1; - Rnums (Nrefs) := Rnums (J); - end if; - end loop; - end if; - end; - - -- Initialize loop through references - - Curxu := No_Unit; - Curent := Empty; - Curdef := No_Location; - Curru := No_Unit; - Crloc := No_Location; - - -- Loop to output references - - for Refno in 1 .. Nrefs loop - Output_One_Ref : declare - P2 : Source_Ptr; - Ent : Entity_Id; - - WC : Char_Code; - Err : Boolean; - pragma Warnings (Off, WC); - pragma Warnings (Off, Err); - - XE : Xref_Entry renames Xrefs.Table (Rnums (Refno)); - -- The current entry to be accessed - - P : Source_Ptr; - -- Used to index into source buffer to get entity name - - Left : Character; - Right : Character; - -- Used for {} or <> or () for type reference - - procedure Check_Type_Reference - (Ent : Entity_Id; - List_Interface : Boolean); - -- Find whether there is a meaningful type reference for - -- Ent, and display it accordingly. If List_Interface is - -- true, then Ent is a progenitor interface of the current - -- type entity being listed. In that case list it as is, - -- without looking for a type reference for it. - - procedure Output_Instantiation_Refs (Loc : Source_Ptr); - -- Recursive procedure to output instantiation references for - -- the given source ptr in [file|line[...]] form. No output - -- if the given location is not a generic template reference. - - procedure Output_Overridden_Op (Old_E : Entity_Id); - -- For a subprogram that is overriding, display information - -- about the inherited operation that it overrides. - - -------------------------- - -- Check_Type_Reference -- - -------------------------- - - procedure Check_Type_Reference - (Ent : Entity_Id; - List_Interface : Boolean) - is - begin - if List_Interface then - - -- This is a progenitor interface of the type for which - -- xref information is being generated. - - Tref := Ent; - Left := '<'; - Right := '>'; - - else - Get_Type_Reference (Ent, Tref, Left, Right); - end if; - - if Present (Tref) then - - -- Case of standard entity, output name - - if Sloc (Tref) = Standard_Location then - Write_Info_Char (Left); - Write_Info_Name (Chars (Tref)); - Write_Info_Char (Right); - - -- Case of source entity, output location - - else - Write_Info_Char (Left); - Trunit := Get_Source_Unit (Sloc (Tref)); - - if Trunit /= Curxu then - Write_Info_Nat (Dependency_Num (Trunit)); - Write_Info_Char ('|'); - end if; - - Write_Info_Nat - (Int (Get_Logical_Line_Number (Sloc (Tref)))); - - declare - Ent : Entity_Id; - Ctyp : Character; - - begin - Ent := Tref; - Ctyp := Xref_Entity_Letters (Ekind (Ent)); - - if Ctyp = '+' - and then Present (Full_View (Ent)) - then - Ent := Underlying_Type (Ent); - - if Present (Ent) then - Ctyp := Xref_Entity_Letters (Ekind (Ent)); - end if; - end if; - - Write_Info_Char (Ctyp); - end; - - Write_Info_Nat - (Int (Get_Column_Number (Sloc (Tref)))); - - -- If the type comes from an instantiation, add the - -- corresponding info. - - Output_Instantiation_Refs (Sloc (Tref)); - Write_Info_Char (Right); - end if; - end if; - end Check_Type_Reference; - - ------------------------------- - -- Output_Instantiation_Refs -- - ------------------------------- - - procedure Output_Instantiation_Refs (Loc : Source_Ptr) is - Iloc : constant Source_Ptr := Instantiation_Location (Loc); - Lun : Unit_Number_Type; - Cu : constant Unit_Number_Type := Curru; - - begin - -- Nothing to do if this is not an instantiation - - if Iloc = No_Location then - return; - end if; - - -- Output instantiation reference - - Write_Info_Char ('['); - Lun := Get_Source_Unit (Iloc); - - if Lun /= Curru then - Curru := Lun; - Write_Info_Nat (Dependency_Num (Curru)); - Write_Info_Char ('|'); - end if; - - Write_Info_Nat (Int (Get_Logical_Line_Number (Iloc))); - - -- Recursive call to get nested instantiations - - Output_Instantiation_Refs (Iloc); - - -- Output final ] after call to get proper nesting - - Write_Info_Char (']'); - Curru := Cu; - return; - end Output_Instantiation_Refs; - - -------------------------- - -- Output_Overridden_Op -- - -------------------------- - - procedure Output_Overridden_Op (Old_E : Entity_Id) is - Op : Entity_Id; - - begin - -- The overridden operation has an implicit declaration - -- at the point of derivation. What we want to display - -- is the original operation, which has the actual body - -- (or abstract declaration) that is being overridden. - -- The overridden operation is not always set, e.g. when - -- it is a predefined operator. - - if No (Old_E) then - return; - - elsif Present (Alias (Old_E)) then - Op := Alias (Old_E); - - else - Op := Old_E; - end if; - - if Present (Op) - and then Sloc (Op) /= Standard_Location - then - declare - Loc : constant Source_Ptr := Sloc (Op); - Par_Unit : constant Unit_Number_Type := - Get_Source_Unit (Loc); - - begin - Write_Info_Char ('<'); - - if Par_Unit /= Curxu then - Write_Info_Nat (Dependency_Num (Par_Unit)); - Write_Info_Char ('|'); - end if; - - Write_Info_Nat (Int (Get_Logical_Line_Number (Loc))); - Write_Info_Char ('p'); - Write_Info_Nat (Int (Get_Column_Number (Loc))); - Write_Info_Char ('>'); - end; - end if; - end Output_Overridden_Op; - - -- Start of processing for Output_One_Ref - - begin - Ent := XE.Ent; - Ctyp := Xref_Entity_Letters (Ekind (Ent)); - - -- Skip reference if it is the only reference to an entity, - -- and it is an END line reference, and the entity is not in - -- the current extended source. This prevents junk entries - -- consisting only of packages with END lines, where no - -- entity from the package is actually referenced. - - if XE.Typ = 'e' - and then Ent /= Curent - and then (Refno = Nrefs or else - Ent /= Xrefs.Table (Rnums (Refno + 1)).Ent) - and then - not In_Extended_Main_Source_Unit (Ent) - then - goto Continue; - end if; - - -- For private type, get full view type - - if Ctyp = '+' - and then Present (Full_View (XE.Ent)) - then - Ent := Underlying_Type (Ent); - - if Present (Ent) then - Ctyp := Xref_Entity_Letters (Ekind (Ent)); - end if; - end if; - - -- Special exception for Boolean - - if Ctyp = 'E' and then Is_Boolean_Type (Ent) then - Ctyp := 'B'; - end if; - - -- For variable reference, get corresponding type - - if Ctyp = '*' then - Ent := Etype (XE.Ent); - Ctyp := Fold_Lower (Xref_Entity_Letters (Ekind (Ent))); - - -- If variable is private type, get full view type - - if Ctyp = '+' - and then Present (Full_View (Etype (XE.Ent))) - then - Ent := Underlying_Type (Etype (XE.Ent)); - - if Present (Ent) then - Ctyp := Fold_Lower (Xref_Entity_Letters (Ekind (Ent))); - end if; - - elsif Is_Generic_Type (Ent) then - - -- If the type of the entity is a generic private type, - -- there is no usable full view, so retain the indication - -- that this is an object. - - Ctyp := '*'; - end if; - - -- Special handling for access parameter - - declare - K : constant Entity_Kind := Ekind (Etype (XE.Ent)); - - begin - if (K = E_Anonymous_Access_Type - or else - K = E_Anonymous_Access_Subprogram_Type - or else K = - E_Anonymous_Access_Protected_Subprogram_Type) - and then Is_Formal (XE.Ent) - then - Ctyp := 'p'; - - -- Special handling for Boolean - - elsif Ctyp = 'e' and then Is_Boolean_Type (Ent) then - Ctyp := 'b'; - end if; - end; - end if; - - -- Special handling for abstract types and operations - - if Is_Overloadable (XE.Ent) - and then Is_Abstract_Subprogram (XE.Ent) - then - if Ctyp = 'U' then - Ctyp := 'x'; -- Abstract procedure - - elsif Ctyp = 'V' then - Ctyp := 'y'; -- Abstract function - end if; - - elsif Is_Type (XE.Ent) - and then Is_Abstract_Type (XE.Ent) - then - if Is_Interface (XE.Ent) then - Ctyp := 'h'; - - elsif Ctyp = 'R' then - Ctyp := 'H'; -- Abstract type - end if; - end if; - - -- Only output reference if interesting type of entity, and - -- suppress self references, except for bodies that act as - -- specs. Also suppress definitions of body formals (we only - -- treat these as references, and the references were - -- separately recorded). - - if Ctyp = ' ' - or else (XE.Loc = XE.Def - and then - (XE.Typ /= 'b' - or else not Is_Subprogram (XE.Ent))) - or else (Is_Formal (XE.Ent) - and then Present (Spec_Entity (XE.Ent))) - then - null; - - else - -- Start new Xref section if new xref unit - - if XE.Eun /= Curxu then - if Write_Info_Col > 1 then - Write_Info_EOL; - end if; - - Curxu := XE.Eun; - Cursrc := Source_Text (Source_Index (Curxu)); - - Write_Info_Initiate ('X'); - Write_Info_Char (' '); - Write_Info_Nat (Dependency_Num (XE.Eun)); - Write_Info_Char (' '); - Write_Info_Name (Reference_Name (Source_Index (XE.Eun))); - end if; - - -- Start new Entity line if new entity. Note that we - -- consider two entities the same if they have the same - -- name and source location. This causes entities in - -- instantiations to be treated as though they referred - -- to the template. - - if No (Curent) - or else - (XE.Ent /= Curent - and then - (Name_Change (XE.Ent) or else XE.Def /= Curdef)) - then - Curent := XE.Ent; - Curdef := XE.Def; - - Get_Unqualified_Name_String (Chars (XE.Ent)); - Curlen := Name_Len; - Curnam (1 .. Curlen) := Name_Buffer (1 .. Curlen); - - if Write_Info_Col > 1 then - Write_Info_EOL; - end if; - - -- Write column number information - - Write_Info_Nat (Int (Get_Logical_Line_Number (XE.Def))); - Write_Info_Char (Ctyp); - Write_Info_Nat (Int (Get_Column_Number (XE.Def))); - - -- Write level information - - Write_Level_Info : declare - function Is_Visible_Generic_Entity - (E : Entity_Id) return Boolean; - -- Check whether E is declared in the visible part - -- of a generic package. For source navigation - -- purposes, treat this as a visible entity. - - function Is_Private_Record_Component - (E : Entity_Id) return Boolean; - -- Check whether E is a non-inherited component of a - -- private extension. Even if the enclosing record is - -- public, we want to treat the component as private - -- for navigation purposes. - - --------------------------------- - -- Is_Private_Record_Component -- - --------------------------------- - - function Is_Private_Record_Component - (E : Entity_Id) return Boolean - is - S : constant Entity_Id := Scope (E); - begin - return - Ekind (E) = E_Component - and then Nkind (Declaration_Node (S)) = - N_Private_Extension_Declaration - and then Original_Record_Component (E) = E; - end Is_Private_Record_Component; - - ------------------------------- - -- Is_Visible_Generic_Entity -- - ------------------------------- - - function Is_Visible_Generic_Entity - (E : Entity_Id) return Boolean - is - Par : Node_Id; - - begin - -- The Present check here is an error defense - - if Present (Scope (E)) - and then Ekind (Scope (E)) /= E_Generic_Package - then - return False; - end if; - - Par := Parent (E); - while Present (Par) loop - if - Nkind (Par) = N_Generic_Package_Declaration - then - -- Entity is a generic formal - - return False; - - elsif - Nkind (Parent (Par)) = N_Package_Specification - then - return - Is_List_Member (Par) - and then List_Containing (Par) = - Visible_Declarations (Parent (Par)); - else - Par := Parent (Par); - end if; - end loop; - - return False; - end Is_Visible_Generic_Entity; - - -- Start of processing for Write_Level_Info - - begin - if Is_Hidden (Curent) - or else Is_Private_Record_Component (Curent) - then - Write_Info_Char (' '); - - elsif - Is_Public (Curent) - or else Is_Visible_Generic_Entity (Curent) - then - Write_Info_Char ('*'); - - else - Write_Info_Char (' '); - end if; - end Write_Level_Info; - - -- Output entity name. We use the occurrence from the - -- actual source program at the definition point. - - P := Original_Location (Sloc (XE.Ent)); - - -- Entity is character literal - - if Cursrc (P) = ''' then - Write_Info_Char (Cursrc (P)); - Write_Info_Char (Cursrc (P + 1)); - Write_Info_Char (Cursrc (P + 2)); - - -- Entity is operator symbol - - elsif Cursrc (P) = '"' or else Cursrc (P) = '%' then - Write_Info_Char (Cursrc (P)); - - P2 := P; - loop - P2 := P2 + 1; - Write_Info_Char (Cursrc (P2)); - exit when Cursrc (P2) = Cursrc (P); - end loop; - - -- Entity is identifier - - else - loop - if Is_Start_Of_Wide_Char (Cursrc, P) then - Scan_Wide (Cursrc, P, WC, Err); - elsif not Identifier_Char (Cursrc (P)) then - exit; - else - P := P + 1; - end if; - end loop; - - -- Write out the identifier by copying the exact - -- source characters used in its declaration. Note - -- that this means wide characters will be in their - -- original encoded form. - - for J in - Original_Location (Sloc (XE.Ent)) .. P - 1 - loop - Write_Info_Char (Cursrc (J)); - end loop; - end if; - - -- See if we have a renaming reference - - if Is_Object (XE.Ent) - and then Present (Renamed_Object (XE.Ent)) - then - Rref := Renamed_Object (XE.Ent); - - elsif Is_Overloadable (XE.Ent) - and then Nkind (Parent (Declaration_Node (XE.Ent))) = - N_Subprogram_Renaming_Declaration - then - Rref := Name (Parent (Declaration_Node (XE.Ent))); - - elsif Ekind (XE.Ent) = E_Package - and then Nkind (Declaration_Node (XE.Ent)) = - N_Package_Renaming_Declaration - then - Rref := Name (Declaration_Node (XE.Ent)); - - else - Rref := Empty; - end if; - - if Present (Rref) then - if Nkind (Rref) = N_Expanded_Name then - Rref := Selector_Name (Rref); - end if; - - if Nkind (Rref) = N_Identifier - or else Nkind (Rref) = N_Operator_Symbol - then - null; - - -- For renamed array components, use the array name - -- for the renamed entity, which reflect the fact that - -- in general the whole array is aliased. - - elsif Nkind (Rref) = N_Indexed_Component then - if Nkind (Prefix (Rref)) = N_Identifier then - Rref := Prefix (Rref); - elsif Nkind (Prefix (Rref)) = N_Expanded_Name then - Rref := Selector_Name (Prefix (Rref)); - else - Rref := Empty; - end if; - - else - Rref := Empty; - end if; - end if; - - -- Write out renaming reference if we have one - - if Present (Rref) then - Write_Info_Char ('='); - Write_Info_Nat - (Int (Get_Logical_Line_Number (Sloc (Rref)))); - Write_Info_Char (':'); - Write_Info_Nat - (Int (Get_Column_Number (Sloc (Rref)))); - end if; - - -- Indicate that the entity is in the unit of the current - -- xref section. - - Curru := Curxu; - - -- Write out information about generic parent, if entity - -- is an instance. - - if Is_Generic_Instance (XE.Ent) then - declare - Gen_Par : constant Entity_Id := - Generic_Parent - (Specification - (Unit_Declaration_Node (XE.Ent))); - Loc : constant Source_Ptr := Sloc (Gen_Par); - Gen_U : constant Unit_Number_Type := - Get_Source_Unit (Loc); - - begin - Write_Info_Char ('['); - if Curru /= Gen_U then - Write_Info_Nat (Dependency_Num (Gen_U)); - Write_Info_Char ('|'); - end if; - - Write_Info_Nat - (Int (Get_Logical_Line_Number (Loc))); - Write_Info_Char (']'); - end; - end if; - - -- See if we have a type reference and if so output - - Check_Type_Reference (XE.Ent, False); - - -- Additional information for types with progenitors - - if Is_Record_Type (XE.Ent) - and then Present (Interfaces (XE.Ent)) - then - declare - Elmt : Elmt_Id := First_Elmt (Interfaces (XE.Ent)); - begin - while Present (Elmt) loop - Check_Type_Reference (Node (Elmt), True); - Next_Elmt (Elmt); - end loop; - end; - - -- For array types, list index types as well. - -- (This is not C, indices have distinct types). - - elsif Is_Array_Type (XE.Ent) then - declare - Indx : Node_Id; - begin - Indx := First_Index (XE.Ent); - while Present (Indx) loop - Check_Type_Reference - (First_Subtype (Etype (Indx)), True); - Next_Index (Indx); - end loop; - end; - end if; - - -- If the entity is an overriding operation, write info - -- on operation that was overridden. - - if Is_Subprogram (XE.Ent) - and then Is_Overriding_Operation (XE.Ent) - then - Output_Overridden_Op (Overridden_Operation (XE.Ent)); - end if; - - -- End of processing for entity output - - Crloc := No_Location; - end if; - - -- Output the reference - - if XE.Loc /= No_Location - and then XE.Loc /= Crloc - then - Crloc := XE.Loc; - - -- Start continuation if line full, else blank - - if Write_Info_Col > 72 then - Write_Info_EOL; - Write_Info_Initiate ('.'); - end if; - - Write_Info_Char (' '); - - -- Output file number if changed - - if XE.Lun /= Curru then - Curru := XE.Lun; - Write_Info_Nat (Dependency_Num (Curru)); - Write_Info_Char ('|'); - end if; - - Write_Info_Nat (Int (Get_Logical_Line_Number (XE.Loc))); - Write_Info_Char (XE.Typ); - - if Is_Overloadable (XE.Ent) - and then Is_Imported (XE.Ent) - and then XE.Typ = 'b' - then - Output_Import_Export_Info (XE.Ent); - end if; - - Write_Info_Nat (Int (Get_Column_Number (XE.Loc))); - - Output_Instantiation_Refs (Sloc (XE.Ent)); - end if; - end if; - end Output_One_Ref; - - <<Continue>> - null; - end loop; - - Write_Info_EOL; - end Output_Refs; - end Output_References; - -end Lib.Xref; |