-- --
-- B o d y --
-- --
--- Copyright (C) 2001-2004 Free Software Foundation, Inc --
+-- Copyright (C) 2001-2007, 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- --
-- 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 COPYING. If not, write --
--- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, --
--- MA 02111-1307, USA. --
+-- to the Free Software Foundation, 51 Franklin Street, Fifth Floor, --
+-- Boston, MA 02110-1301, USA. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
-with Err_Vars; use Err_Vars;
-with Namet; use Namet;
-with Opt; use Opt;
-with Prj.Err; use Prj.Err;
-with Prj.Strt; use Prj.Strt;
-with Prj.Tree; use Prj.Tree;
-with Scans; use Scans;
+with Err_Vars; use Err_Vars;
+with Opt; use Opt;
+with Prj.Err; use Prj.Err;
+with Prj.Strt; use Prj.Strt;
+with Prj.Tree; use Prj.Tree;
with Snames;
-with Types; use Types;
-with Prj.Attr; use Prj.Attr;
-with Uintp; use Uintp;
+with Prj.Attr; use Prj.Attr;
+with Prj.Attr.PM; use Prj.Attr.PM;
+with Uintp; use Uintp;
package body Prj.Dect is
-- (In_Project).
procedure Parse_Attribute_Declaration
- (Attribute : out Project_Node_Id;
+ (In_Tree : Project_Node_Tree_Ref;
+ Attribute : out Project_Node_Id;
First_Attribute : Attribute_Node_Id;
Current_Project : Project_Node_Id;
- Current_Package : Project_Node_Id);
- -- Parse an attribute declaration.
+ Current_Package : Project_Node_Id;
+ Packages_To_Check : String_List_Access);
+ -- Parse an attribute declaration
procedure Parse_Case_Construction
- (Case_Construction : out Project_Node_Id;
+ (In_Tree : Project_Node_Tree_Ref;
+ Case_Construction : out Project_Node_Id;
First_Attribute : Attribute_Node_Id;
Current_Project : Project_Node_Id;
- Current_Package : Project_Node_Id);
+ Current_Package : Project_Node_Id;
+ Packages_To_Check : String_List_Access);
-- Parse a case construction
procedure Parse_Declarative_Items
- (Declarations : out Project_Node_Id;
+ (In_Tree : Project_Node_Tree_Ref;
+ Declarations : out Project_Node_Id;
In_Zone : Zone;
First_Attribute : Attribute_Node_Id;
Current_Project : Project_Node_Id;
- Current_Package : Project_Node_Id);
+ Current_Package : Project_Node_Id;
+ Packages_To_Check : String_List_Access);
-- Parse declarative items. Depending on In_Zone, some declarative
-- items may be forbiden.
procedure Parse_Package_Declaration
- (Package_Declaration : out Project_Node_Id;
- Current_Project : Project_Node_Id);
+ (In_Tree : Project_Node_Tree_Ref;
+ Package_Declaration : out Project_Node_Id;
+ Current_Project : Project_Node_Id;
+ Packages_To_Check : String_List_Access);
-- Parse a package declaration
procedure Parse_String_Type_Declaration
- (String_Type : out Project_Node_Id;
+ (In_Tree : Project_Node_Tree_Ref;
+ String_Type : out Project_Node_Id;
Current_Project : Project_Node_Id);
-- type <name> is ( <literal_string> { , <literal_string> } ) ;
procedure Parse_Variable_Declaration
- (Variable : out Project_Node_Id;
+ (In_Tree : Project_Node_Tree_Ref;
+ Variable : out Project_Node_Id;
Current_Project : Project_Node_Id;
Current_Package : Project_Node_Id);
-- Parse a variable assignment
-----------
procedure Parse
- (Declarations : out Project_Node_Id;
- Current_Project : Project_Node_Id;
- Extends : Project_Node_Id)
+ (In_Tree : Project_Node_Tree_Ref;
+ Declarations : out Project_Node_Id;
+ Current_Project : Project_Node_Id;
+ Extends : Project_Node_Id;
+ Packages_To_Check : String_List_Access)
is
First_Declarative_Item : Project_Node_Id := Empty_Node;
begin
- Declarations := Default_Project_Node (Of_Kind => N_Project_Declaration);
- Set_Location_Of (Declarations, To => Token_Ptr);
- Set_Extended_Project_Of (Declarations, To => Extends);
- Set_Project_Declaration_Of (Current_Project, Declarations);
+ Declarations :=
+ Default_Project_Node
+ (Of_Kind => N_Project_Declaration, In_Tree => In_Tree);
+ Set_Location_Of (Declarations, In_Tree, To => Token_Ptr);
+ Set_Extended_Project_Of (Declarations, In_Tree, To => Extends);
+ Set_Project_Declaration_Of (Current_Project, In_Tree, Declarations);
Parse_Declarative_Items
- (Declarations => First_Declarative_Item,
- In_Zone => In_Project,
- First_Attribute => Prj.Attr.Attribute_First,
- Current_Project => Current_Project,
- Current_Package => Empty_Node);
+ (Declarations => First_Declarative_Item,
+ In_Tree => In_Tree,
+ In_Zone => In_Project,
+ First_Attribute => Prj.Attr.Attribute_First,
+ Current_Project => Current_Project,
+ Current_Package => Empty_Node,
+ Packages_To_Check => Packages_To_Check);
Set_First_Declarative_Item_Of
- (Declarations, To => First_Declarative_Item);
+ (Declarations, In_Tree, To => First_Declarative_Item);
end Parse;
---------------------------------
---------------------------------
procedure Parse_Attribute_Declaration
- (Attribute : out Project_Node_Id;
- First_Attribute : Attribute_Node_Id;
- Current_Project : Project_Node_Id;
- Current_Package : Project_Node_Id)
+ (In_Tree : Project_Node_Tree_Ref;
+ Attribute : out Project_Node_Id;
+ First_Attribute : Attribute_Node_Id;
+ Current_Project : Project_Node_Id;
+ Current_Package : Project_Node_Id;
+ Packages_To_Check : String_List_Access)
is
Current_Attribute : Attribute_Node_Id := First_Attribute;
Full_Associative_Array : Boolean := False;
Attribute_Name : Name_Id := No_Name;
Optional_Index : Boolean := False;
Pkg_Id : Package_Node_Id := Empty_Package;
- Warning : Boolean := False;
+ Ignore : Boolean := False;
begin
- Attribute := Default_Project_Node (Of_Kind => N_Attribute_Declaration);
- Set_Location_Of (Attribute, To => Token_Ptr);
+ Attribute :=
+ Default_Project_Node
+ (Of_Kind => N_Attribute_Declaration, In_Tree => In_Tree);
+ Set_Location_Of (Attribute, In_Tree, To => Token_Ptr);
Set_Previous_Line_Node (Attribute);
-- Scan past "for"
- Scan;
+ Scan (In_Tree);
-- Body may be an attribute name
if Token = Tok_Identifier then
Attribute_Name := Token_Name;
- Set_Name_Of (Attribute, To => Token_Name);
- Set_Location_Of (Attribute, To => Token_Ptr);
+ Set_Name_Of (Attribute, In_Tree, To => Token_Name);
+ Set_Location_Of (Attribute, In_Tree, To => Token_Ptr);
-- Find the attribute
if Current_Attribute = Empty_Attribute then
if Current_Package /= Empty_Node
- and then Expression_Kind_Of (Current_Package) = Ignored
+ and then Expression_Kind_Of (Current_Package, In_Tree) = Ignored
then
- Pkg_Id := Package_Id_Of (Current_Package);
+ Pkg_Id := Package_Id_Of (Current_Package, In_Tree);
Add_Attribute (Pkg_Id, Token_Name, Current_Attribute);
- Error_Msg_Name_1 := Token_Name;
- Error_Msg ("?unknown attribute {", Token_Ptr);
else
- -- If not a valid attribute name, issue an error, or a warning
- -- if inside a package that does not need to be checked.
+ -- If not a valid attribute name, issue an error if inside
+ -- a package that need to be checked.
- Warning := Current_Package /= Empty_Node and then
- Current_Packages_To_Check /= All_Packages;
+ Ignore := Current_Package /= Empty_Node and then
+ Packages_To_Check /= All_Packages;
- if Warning then
+ if Ignore then
-- Check that we are not in a package to check
- Get_Name_String (Name_Of (Current_Package));
+ Get_Name_String (Name_Of (Current_Package, In_Tree));
- for Index in Current_Packages_To_Check'Range loop
+ for Index in Packages_To_Check'Range loop
if Name_Buffer (1 .. Name_Len) =
- Current_Packages_To_Check (Index).all
+ Packages_To_Check (Index).all
then
- Warning := False;
+ Ignore := False;
exit;
end if;
end loop;
end if;
- Error_Msg_Name_1 := Token_Name;
-
- if Warning then
- Error_Msg ("?undefined attribute {", Token_Ptr);
-
- else
- Error_Msg ("undefined attribute {", Token_Ptr);
+ if not Ignore then
+ Error_Msg_Name_1 := Token_Name;
+ Error_Msg ("undefined attribute %%", Token_Ptr);
end if;
end if;
Case_Insensitive_Associative_Array ..
Optional_Index_Case_Insensitive_Associative_Array
then
- Set_Case_Insensitive (Attribute, To => True);
+ Set_Case_Insensitive (Attribute, In_Tree, To => True);
end if;
- Scan; -- past the attribute name
+ Scan (In_Tree); -- past the attribute name
end if;
-- Change obsolete names of attributes to the new names
if Current_Package /= Empty_Node
- and then Expression_Kind_Of (Current_Package) /= Ignored
+ and then Expression_Kind_Of (Current_Package, In_Tree) /= Ignored
then
- case Name_Of (Attribute) is
+ case Name_Of (Attribute, In_Tree) is
when Snames.Name_Specification =>
- Set_Name_Of (Attribute, To => Snames.Name_Spec);
+ Set_Name_Of (Attribute, In_Tree, To => Snames.Name_Spec);
when Snames.Name_Specification_Suffix =>
- Set_Name_Of (Attribute, To => Snames.Name_Spec_Suffix);
+ Set_Name_Of (Attribute, In_Tree, To => Snames.Name_Spec_Suffix);
when Snames.Name_Implementation =>
- Set_Name_Of (Attribute, To => Snames.Name_Body);
+ Set_Name_Of (Attribute, In_Tree, To => Snames.Name_Body);
when Snames.Name_Implementation_Suffix =>
- Set_Name_Of (Attribute, To => Snames.Name_Body_Suffix);
+ Set_Name_Of (Attribute, In_Tree, To => Snames.Name_Body_Suffix);
when others =>
null;
Get_Name_String
(Attribute_Name_Of (Current_Attribute)) &
""" cannot be an associative array",
- Location_Of (Attribute));
+ Location_Of (Attribute, In_Tree));
elsif Attribute_Kind_Of (Current_Attribute) = Unknown then
Set_Attribute_Kind_Of (Current_Attribute, To => Associative_Array);
end if;
- Scan; -- past the left parenthesis
+ Scan (In_Tree); -- past the left parenthesis
Expect (Tok_String_Literal, "literal string");
if Token = Tok_String_Literal then
- Set_Associative_Array_Index_Of (Attribute, Token_Name);
- Scan; -- past the literal string index
+ Set_Associative_Array_Index_Of (Attribute, In_Tree, Token_Name);
+ Scan (In_Tree); -- past the literal string index
if Token = Tok_At then
case Attribute_Kind_Of (Current_Attribute) is
when Optional_Index_Associative_Array |
Optional_Index_Case_Insensitive_Associative_Array =>
- Scan;
+ Scan (In_Tree);
Expect (Tok_Integer_Literal, "integer literal");
if Token = Tok_Integer_Literal then
if Index = 0 then
Error_Msg ("index cannot be zero", Token_Ptr);
else
- Set_Source_Index_Of (Attribute, To => Index);
+ Set_Source_Index_Of
+ (Attribute, In_Tree, To => Index);
end if;
end;
- Scan;
+ Scan (In_Tree);
end if;
when others =>
Error_Msg ("index not allowed here", Token_Ptr);
- Scan;
+ Scan (In_Tree);
if Token = Tok_Integer_Literal then
- Scan;
+ Scan (In_Tree);
end if;
end case;
end if;
Expect (Tok_Right_Paren, "`)`");
if Token = Tok_Right_Paren then
- Scan; -- past the right parenthesis
+ Scan (In_Tree); -- past the right parenthesis
end if;
else
if Current_Attribute /= Empty_Attribute then
Set_Expression_Kind_Of
- (Attribute, To => Variable_Kind_Of (Current_Attribute));
+ (Attribute, In_Tree, To => Variable_Kind_Of (Current_Attribute));
Optional_Index := Optional_Index_Of (Current_Attribute);
end if;
Expect (Tok_Use, "USE");
if Token = Tok_Use then
- Scan;
+ Scan (In_Tree);
if Full_Associative_Array then
-- in the project being extended.
The_Project := Imported_Or_Extended_Project_Of
- (Current_Project, Token_Name);
+ (Current_Project, In_Tree, Token_Name);
if The_Project = Empty_Node then
Error_Msg ("unknown project", Location);
- Scan; -- past the project name
+ Scan (In_Tree); -- past the project name
else
Project_Name := Token_Name;
- Scan; -- past the project name
+ Scan (In_Tree); -- past the project name
-- If this is inside a package, a dot followed by the
-- name of the package must followed the project name.
The_Project := Empty_Node;
else
- Scan; -- past the dot
+ Scan (In_Tree); -- past the dot
Expect (Tok_Identifier, "identifier");
if Token /= Tok_Identifier then
-- If it is not the same package name, issue error
- elsif Token_Name /= Name_Of (Current_Package) then
+ elsif
+ Token_Name /= Name_Of (Current_Package, In_Tree)
+ then
The_Project := Empty_Node;
Error_Msg
("not the same package as " &
- Get_Name_String (Name_Of (Current_Package)),
+ Get_Name_String
+ (Name_Of (Current_Package, In_Tree)),
Token_Ptr);
else
- The_Package := First_Package_Of (The_Project);
+ The_Package :=
+ First_Package_Of (The_Project, In_Tree);
-- Look for the package node
while The_Package /= Empty_Node
- and then Name_Of (The_Package) /= Token_Name
+ and then
+ Name_Of (The_Package, In_Tree) /= Token_Name
loop
The_Package :=
- Next_Package_In_Project (The_Package);
+ Next_Package_In_Project
+ (The_Package, In_Tree);
end loop;
-- If the package cannot be found in the
Token_Ptr);
end if;
- Scan; -- past the package name
+ Scan (In_Tree); -- past the package name
end if;
end if;
end if;
The_Project := Empty_Node;
else
- Scan; -- past the apostrophe
+ Scan (In_Tree); -- past the apostrophe
Expect (Tok_Identifier, "identifier");
if Token /= Tok_Identifier then
Error_Msg ("invalid name, should be %", Token_Ptr);
end if;
- Scan; -- past the attribute name
+ Scan (In_Tree); -- past the attribute name
end if;
end if;
end if;
-- characterizes full associative array attribute
-- declarations.
- Set_Associative_Project_Of (Attribute, The_Project);
- Set_Associative_Package_Of (Attribute, The_Package);
+ Set_Associative_Project_Of (Attribute, In_Tree, The_Project);
+ Set_Associative_Package_Of (Attribute, In_Tree, The_Package);
end if;
end;
-- Get the expression value and set it in the attribute node
Parse_Expression
- (Expression => Expression,
+ (In_Tree => In_Tree,
+ Expression => Expression,
Current_Project => Current_Project,
Current_Package => Current_Package,
Optional_Index => Optional_Index);
- Set_Expression_Of (Attribute, To => Expression);
+ Set_Expression_Of (Attribute, In_Tree, To => Expression);
-- If the expression is legal, but not of the right kind
-- for the attribute, issue an error.
if Current_Attribute /= Empty_Attribute
and then Expression /= Empty_Node
and then Variable_Kind_Of (Current_Attribute) /=
- Expression_Kind_Of (Expression)
+ Expression_Kind_Of (Expression, In_Tree)
then
if Variable_Kind_Of (Current_Attribute) = Undefined then
Set_Variable_Kind_Of
(Current_Attribute,
- To => Expression_Kind_Of (Expression));
+ To => Expression_Kind_Of (Expression, In_Tree));
else
Error_Msg
-----------------------------
procedure Parse_Case_Construction
- (Case_Construction : out Project_Node_Id;
+ (In_Tree : Project_Node_Tree_Ref;
+ Case_Construction : out Project_Node_Id;
First_Attribute : Attribute_Node_Id;
Current_Project : Project_Node_Id;
- Current_Package : Project_Node_Id)
+ Current_Package : Project_Node_Id;
+ Packages_To_Check : String_List_Access)
is
Current_Item : Project_Node_Id := Empty_Node;
Next_Item : Project_Node_Id := Empty_Node;
begin
Case_Construction :=
- Default_Project_Node (Of_Kind => N_Case_Construction);
- Set_Location_Of (Case_Construction, To => Token_Ptr);
+ Default_Project_Node
+ (Of_Kind => N_Case_Construction, In_Tree => In_Tree);
+ Set_Location_Of (Case_Construction, In_Tree, To => Token_Ptr);
-- Scan past "case"
- Scan;
+ Scan (In_Tree);
-- Get the switch variable
if Token = Tok_Identifier then
Variable_Location := Token_Ptr;
Parse_Variable_Reference
- (Variable => Case_Variable,
+ (In_Tree => In_Tree,
+ Variable => Case_Variable,
Current_Project => Current_Project,
Current_Package => Current_Package);
Set_Case_Variable_Reference_Of
- (Case_Construction, To => Case_Variable);
+ (Case_Construction, In_Tree, To => Case_Variable);
else
if Token /= Tok_Is then
- Scan;
+ Scan (In_Tree);
end if;
end if;
if Case_Variable /= Empty_Node then
- String_Type := String_Type_Of (Case_Variable);
+ String_Type := String_Type_Of (Case_Variable, In_Tree);
if String_Type = Empty_Node then
Error_Msg ("variable """ &
- Get_Name_String (Name_Of (Case_Variable)) &
+ Get_Name_String (Name_Of (Case_Variable, In_Tree)) &
""" is not typed",
Variable_Location);
end if;
-- Scan past "is"
- Scan;
+ Scan (In_Tree);
end if;
- Start_New_Case_Construction (String_Type);
+ Start_New_Case_Construction (In_Tree, String_Type);
When_Loop :
while Token = Tok_When loop
if First_Case_Item then
- Current_Item := Default_Project_Node (Of_Kind => N_Case_Item);
- Set_First_Case_Item_Of (Case_Construction, To => Current_Item);
+ Current_Item :=
+ Default_Project_Node
+ (Of_Kind => N_Case_Item, In_Tree => In_Tree);
+ Set_First_Case_Item_Of
+ (Case_Construction, In_Tree, To => Current_Item);
First_Case_Item := False;
else
- Next_Item := Default_Project_Node (Of_Kind => N_Case_Item);
- Set_Next_Case_Item (Current_Item, To => Next_Item);
+ Next_Item :=
+ Default_Project_Node
+ (Of_Kind => N_Case_Item, In_Tree => In_Tree);
+ Set_Next_Case_Item (Current_Item, In_Tree, To => Next_Item);
Current_Item := Next_Item;
end if;
- Set_Location_Of (Current_Item, To => Token_Ptr);
+ Set_Location_Of (Current_Item, In_Tree, To => Token_Ptr);
-- Scan past "when"
- Scan;
+ Scan (In_Tree);
if Token = Tok_Others then
When_Others := True;
-- Scan past "others"
- Scan;
+ Scan (In_Tree);
Expect (Tok_Arrow, "`=>`");
Set_End_Of_Line (Current_Item);
-- Empty_Node in Field1 of a Case_Item indicates
-- the "when others =>" branch.
- Set_First_Choice_Of (Current_Item, To => Empty_Node);
+ Set_First_Choice_Of (Current_Item, In_Tree, To => Empty_Node);
Parse_Declarative_Items
- (Declarations => First_Declarative_Item,
- In_Zone => In_Case_Construction,
- First_Attribute => First_Attribute,
- Current_Project => Current_Project,
- Current_Package => Current_Package);
+ (In_Tree => In_Tree,
+ Declarations => First_Declarative_Item,
+ In_Zone => In_Case_Construction,
+ First_Attribute => First_Attribute,
+ Current_Project => Current_Project,
+ Current_Package => Current_Package,
+ Packages_To_Check => Packages_To_Check);
-- "when others =>" must be the last branch, so save the
-- Case_Item and exit
Set_First_Declarative_Item_Of
- (Current_Item, To => First_Declarative_Item);
+ (Current_Item, In_Tree, To => First_Declarative_Item);
exit When_Loop;
else
- Parse_Choice_List (First_Choice => First_Choice);
- Set_First_Choice_Of (Current_Item, To => First_Choice);
+ Parse_Choice_List
+ (In_Tree => In_Tree,
+ First_Choice => First_Choice);
+ Set_First_Choice_Of (Current_Item, In_Tree, To => First_Choice);
Expect (Tok_Arrow, "`=>`");
Set_End_Of_Line (Current_Item);
Set_Previous_Line_Node (Current_Item);
Parse_Declarative_Items
- (Declarations => First_Declarative_Item,
- In_Zone => In_Case_Construction,
- First_Attribute => First_Attribute,
- Current_Project => Current_Project,
- Current_Package => Current_Package);
+ (In_Tree => In_Tree,
+ Declarations => First_Declarative_Item,
+ In_Zone => In_Case_Construction,
+ First_Attribute => First_Attribute,
+ Current_Project => Current_Project,
+ Current_Package => Current_Package,
+ Packages_To_Check => Packages_To_Check);
Set_First_Declarative_Item_Of
- (Current_Item, To => First_Declarative_Item);
+ (Current_Item, In_Tree, To => First_Declarative_Item);
end if;
end loop When_Loop;
End_Case_Construction
(Check_All_Labels => not When_Others and not Quiet_Output,
- Case_Location => Location_Of (Case_Construction));
+ Case_Location => Location_Of (Case_Construction, In_Tree));
Expect (Tok_End, "`END CASE`");
Remove_Next_End_Node;
-- Scan past "end"
- Scan;
+ Scan (In_Tree);
Expect (Tok_Case, "CASE");
-- Scan past "case"
- Scan;
+ Scan (In_Tree);
Expect (Tok_Semicolon, "`;`");
Set_Previous_End_Node (Case_Construction);
-----------------------------
procedure Parse_Declarative_Items
- (Declarations : out Project_Node_Id;
- In_Zone : Zone;
- First_Attribute : Attribute_Node_Id;
- Current_Project : Project_Node_Id;
- Current_Package : Project_Node_Id)
+ (In_Tree : Project_Node_Tree_Ref;
+ Declarations : out Project_Node_Id;
+ In_Zone : Zone;
+ First_Attribute : Attribute_Node_Id;
+ Current_Project : Project_Node_Id;
+ Current_Package : Project_Node_Id;
+ Packages_To_Check : String_List_Access)
is
Current_Declarative_Item : Project_Node_Id := Empty_Node;
Next_Declarative_Item : Project_Node_Id := Empty_Node;
-- the first token of the declarative element.
-- Scan past it
- Scan;
+ Scan (In_Tree);
Item_Location := Token_Ptr;
end if;
Parse_Variable_Declaration
- (Current_Declaration,
+ (In_Tree,
+ Current_Declaration,
Current_Project => Current_Project,
Current_Package => Current_Package);
when Tok_For =>
Parse_Attribute_Declaration
- (Attribute => Current_Declaration,
- First_Attribute => First_Attribute,
- Current_Project => Current_Project,
- Current_Package => Current_Package);
+ (In_Tree => In_Tree,
+ Attribute => Current_Declaration,
+ First_Attribute => First_Attribute,
+ Current_Project => Current_Project,
+ Current_Package => Current_Package,
+ Packages_To_Check => Packages_To_Check);
Set_End_Of_Line (Current_Declaration);
Set_Previous_Line_Node (Current_Declaration);
when Tok_Null =>
- Scan; -- past "null"
+ Scan (In_Tree); -- past "null"
when Tok_Package =>
end if;
Parse_Package_Declaration
- (Package_Declaration => Current_Declaration,
- Current_Project => Current_Project);
+ (In_Tree => In_Tree,
+ Package_Declaration => Current_Declaration,
+ Current_Project => Current_Project,
+ Packages_To_Check => Packages_To_Check);
Set_Previous_End_Node (Current_Declaration);
end if;
Parse_String_Type_Declaration
- (String_Type => Current_Declaration,
+ (In_Tree => In_Tree,
+ String_Type => Current_Declaration,
Current_Project => Current_Project);
Set_End_Of_Line (Current_Declaration);
-- Case construction
Parse_Case_Construction
- (Case_Construction => Current_Declaration,
+ (In_Tree => In_Tree,
+ Case_Construction => Current_Declaration,
First_Attribute => First_Attribute,
Current_Project => Current_Project,
- Current_Package => Current_Package);
+ Current_Package => Current_Package,
+ Packages_To_Check => Packages_To_Check);
Set_Previous_End_Node (Current_Declaration);
if Current_Declaration /= Empty_Node then
if Current_Declarative_Item = Empty_Node then
Current_Declarative_Item :=
- Default_Project_Node (Of_Kind => N_Declarative_Item);
+ Default_Project_Node
+ (Of_Kind => N_Declarative_Item, In_Tree => In_Tree);
Declarations := Current_Declarative_Item;
else
Next_Declarative_Item :=
- Default_Project_Node (Of_Kind => N_Declarative_Item);
+ Default_Project_Node
+ (Of_Kind => N_Declarative_Item, In_Tree => In_Tree);
Set_Next_Declarative_Item
- (Current_Declarative_Item, To => Next_Declarative_Item);
+ (Current_Declarative_Item, In_Tree,
+ To => Next_Declarative_Item);
Current_Declarative_Item := Next_Declarative_Item;
end if;
Set_Current_Item_Node
- (Current_Declarative_Item, To => Current_Declaration);
- Set_Location_Of (Current_Declarative_Item, To => Item_Location);
+ (Current_Declarative_Item, In_Tree,
+ To => Current_Declaration);
+ Set_Location_Of
+ (Current_Declarative_Item, In_Tree, To => Item_Location);
end if;
-
end loop;
-
end Parse_Declarative_Items;
-------------------------------
-------------------------------
procedure Parse_Package_Declaration
- (Package_Declaration : out Project_Node_Id;
- Current_Project : Project_Node_Id)
+ (In_Tree : Project_Node_Tree_Ref;
+ Package_Declaration : out Project_Node_Id;
+ Current_Project : Project_Node_Id;
+ Packages_To_Check : String_List_Access)
is
First_Attribute : Attribute_Node_Id := Empty_Attribute;
Current_Package : Package_Node_Id := Empty_Package;
First_Declarative_Item : Project_Node_Id := Empty_Node;
+ Package_Location : constant Source_Ptr := Token_Ptr;
+
begin
Package_Declaration :=
- Default_Project_Node (Of_Kind => N_Package_Declaration);
- Set_Location_Of (Package_Declaration, To => Token_Ptr);
+ Default_Project_Node
+ (Of_Kind => N_Package_Declaration, In_Tree => In_Tree);
+ Set_Location_Of (Package_Declaration, In_Tree, To => Package_Location);
-- Scan past "package"
- Scan;
-
+ Scan (In_Tree);
Expect (Tok_Identifier, "identifier");
if Token = Tok_Identifier then
-
- Set_Name_Of (Package_Declaration, To => Token_Name);
+ Set_Name_Of (Package_Declaration, In_Tree, To => Token_Name);
Current_Package := Package_Node_Id_Of (Token_Name);
First_Attribute := First_Attribute_Of (Current_Package);
else
- Error_Msg ("?""" &
- Get_Name_String (Name_Of (Package_Declaration)) &
- """ is not a known package name",
- Token_Ptr);
+ if not Quiet_Output then
+ Error_Msg ("?""" &
+ Get_Name_String
+ (Name_Of (Package_Declaration, In_Tree)) &
+ """ is not a known package name",
+ Token_Ptr);
+ end if;
-- Set the package declaration to "ignored" so that it is not
-- processed by Prj.Proc.Process.
- Set_Expression_Kind_Of (Package_Declaration, Ignored);
+ Set_Expression_Kind_Of (Package_Declaration, In_Tree, Ignored);
-- Add the unknown package in the list of packages
Add_Unknown_Package (Token_Name, Current_Package);
end if;
- Set_Package_Id_Of (Package_Declaration, To => Current_Package);
+ Set_Package_Id_Of
+ (Package_Declaration, In_Tree, To => Current_Package);
declare
- Current : Project_Node_Id := First_Package_Of (Current_Project);
+ Current : Project_Node_Id :=
+ First_Package_Of (Current_Project, In_Tree);
begin
while Current /= Empty_Node
- and then Name_Of (Current) /= Token_Name
+ and then Name_Of (Current, In_Tree) /= Token_Name
loop
- Current := Next_Package_In_Project (Current);
+ Current := Next_Package_In_Project (Current, In_Tree);
end loop;
if Current /= Empty_Node then
Error_Msg
("package """ &
- Get_Name_String (Name_Of (Package_Declaration)) &
+ Get_Name_String (Name_Of (Package_Declaration, In_Tree)) &
""" is declared twice in the same project",
Token_Ptr);
-- Add the package to the project list
Set_Next_Package_In_Project
- (Package_Declaration,
- To => First_Package_Of (Current_Project));
+ (Package_Declaration, In_Tree,
+ To => First_Package_Of (Current_Project, In_Tree));
Set_First_Package_Of
- (Current_Project, To => Package_Declaration);
+ (Current_Project, In_Tree, To => Package_Declaration);
end if;
end;
-- Scan past the package name
- Scan;
+ Scan (In_Tree);
end if;
if Token = Tok_Renames then
-- Scan past "renames"
- Scan;
+ Scan (In_Tree);
Expect (Tok_Identifier, "identifier");
if Token = Tok_Identifier then
declare
Project_Name : constant Name_Id := Token_Name;
+
Clause : Project_Node_Id :=
- First_With_Clause_Of (Current_Project);
+ First_With_Clause_Of (Current_Project, In_Tree);
The_Project : Project_Node_Id := Empty_Node;
Extended : constant Project_Node_Id :=
Extended_Project_Of
- (Project_Declaration_Of (Current_Project));
+ (Project_Declaration_Of
+ (Current_Project, In_Tree),
+ In_Tree);
begin
while Clause /= Empty_Node loop
- -- Only non limited imported projects may be used
- -- in a renames declaration.
+ -- Only non limited imported projects may be used in a
+ -- renames declaration.
- The_Project := Non_Limited_Project_Node_Of (Clause);
+ The_Project :=
+ Non_Limited_Project_Node_Of (Clause, In_Tree);
exit when The_Project /= Empty_Node
- and then Name_Of (The_Project) = Project_Name;
- Clause := Next_With_Clause_Of (Clause);
+ and then Name_Of (The_Project, In_Tree) = Project_Name;
+ Clause := Next_With_Clause_Of (Clause, In_Tree);
end loop;
if Clause = Empty_Node then
-- if it's the name of an eventual extended project.
if Extended /= Empty_Node
- and then Name_Of (Extended) = Project_Name then
+ and then Name_Of (Extended, In_Tree) = Project_Name
+ then
Set_Project_Of_Renamed_Package_Of
- (Package_Declaration, To => Extended);
+ (Package_Declaration, In_Tree, To => Extended);
else
Error_Msg_Name_1 := Project_Name;
Error_Msg
end if;
else
Set_Project_Of_Renamed_Package_Of
- (Package_Declaration, To => The_Project);
+ (Package_Declaration, In_Tree, To => The_Project);
end if;
end;
- Scan;
+ Scan (In_Tree);
Expect (Tok_Dot, "`.`");
if Token = Tok_Dot then
- Scan;
+ Scan (In_Tree);
Expect (Tok_Identifier, "identifier");
if Token = Tok_Identifier then
- if Name_Of (Package_Declaration) /= Token_Name then
+ if Name_Of (Package_Declaration, In_Tree) /= Token_Name then
Error_Msg ("not the same package name", Token_Ptr);
elsif
- Project_Of_Renamed_Package_Of (Package_Declaration)
- /= Empty_Node
+ Project_Of_Renamed_Package_Of
+ (Package_Declaration, In_Tree) /= Empty_Node
then
declare
Current : Project_Node_Id :=
First_Package_Of
(Project_Of_Renamed_Package_Of
- (Package_Declaration));
+ (Package_Declaration, In_Tree),
+ In_Tree);
begin
while Current /= Empty_Node
- and then Name_Of (Current) /= Token_Name
+ and then Name_Of (Current, In_Tree) /= Token_Name
loop
- Current := Next_Package_In_Project (Current);
+ Current :=
+ Next_Package_In_Project (Current, In_Tree);
end loop;
if Current = Empty_Node then
end;
end if;
- Scan;
+ Scan (In_Tree);
end if;
end if;
end if;
Set_Next_End_Node (Package_Declaration);
Parse_Declarative_Items
- (Declarations => First_Declarative_Item,
- In_Zone => In_Package,
- First_Attribute => First_Attribute,
- Current_Project => Current_Project,
- Current_Package => Package_Declaration);
+ (In_Tree => In_Tree,
+ Declarations => First_Declarative_Item,
+ In_Zone => In_Package,
+ First_Attribute => First_Attribute,
+ Current_Project => Current_Project,
+ Current_Package => Package_Declaration,
+ Packages_To_Check => Packages_To_Check);
Set_First_Declarative_Item_Of
- (Package_Declaration, To => First_Declarative_Item);
+ (Package_Declaration, In_Tree, To => First_Declarative_Item);
Expect (Tok_End, "END");
-- Scan past "end"
- Scan;
+ Scan (In_Tree);
end if;
-- We should have the name of the package after "end"
Expect (Tok_Identifier, "identifier");
if Token = Tok_Identifier
- and then Name_Of (Package_Declaration) /= No_Name
- and then Token_Name /= Name_Of (Package_Declaration)
+ and then Name_Of (Package_Declaration, In_Tree) /= No_Name
+ and then Token_Name /= Name_Of (Package_Declaration, In_Tree)
then
- Error_Msg_Name_1 := Name_Of (Package_Declaration);
- Error_Msg ("expected {", Token_Ptr);
+ Error_Msg_Name_1 := Name_Of (Package_Declaration, In_Tree);
+ Error_Msg ("expected %", Token_Ptr);
end if;
if Token /= Tok_Semicolon then
-- Scan past the package name
- Scan;
+ Scan (In_Tree);
end if;
Expect (Tok_Semicolon, "`;`");
-----------------------------------
procedure Parse_String_Type_Declaration
- (String_Type : out Project_Node_Id;
+ (In_Tree : Project_Node_Tree_Ref;
+ String_Type : out Project_Node_Id;
Current_Project : Project_Node_Id)
is
Current : Project_Node_Id := Empty_Node;
begin
String_Type :=
- Default_Project_Node (Of_Kind => N_String_Type_Declaration);
+ Default_Project_Node
+ (Of_Kind => N_String_Type_Declaration, In_Tree => In_Tree);
- Set_Location_Of (String_Type, To => Token_Ptr);
+ Set_Location_Of (String_Type, In_Tree, To => Token_Ptr);
-- Scan past "type"
- Scan;
+ Scan (In_Tree);
Expect (Tok_Identifier, "identifier");
if Token = Tok_Identifier then
- Set_Name_Of (String_Type, To => Token_Name);
+ Set_Name_Of (String_Type, In_Tree, To => Token_Name);
- Current := First_String_Type_Of (Current_Project);
+ Current := First_String_Type_Of (Current_Project, In_Tree);
while Current /= Empty_Node
and then
- Name_Of (Current) /= Token_Name
+ Name_Of (Current, In_Tree) /= Token_Name
loop
- Current := Next_String_Type (Current);
+ Current := Next_String_Type (Current, In_Tree);
end loop;
if Current /= Empty_Node then
"""",
Token_Ptr);
else
- Current := First_Variable_Of (Current_Project);
+ Current := First_Variable_Of (Current_Project, In_Tree);
while Current /= Empty_Node
- and then Name_Of (Current) /= Token_Name
+ and then Name_Of (Current, In_Tree) /= Token_Name
loop
- Current := Next_Variable (Current);
+ Current := Next_Variable (Current, In_Tree);
end loop;
if Current /= Empty_Node then
""" is already a variable name", Token_Ptr);
else
Set_Next_String_Type
- (String_Type, To => First_String_Type_Of (Current_Project));
- Set_First_String_Type_Of (Current_Project, To => String_Type);
+ (String_Type, In_Tree,
+ To => First_String_Type_Of (Current_Project, In_Tree));
+ Set_First_String_Type_Of
+ (Current_Project, In_Tree, To => String_Type);
end if;
end if;
-- Scan past the name
- Scan;
+ Scan (In_Tree);
end if;
Expect (Tok_Is, "IS");
if Token = Tok_Is then
- Scan;
+ Scan (In_Tree);
end if;
Expect (Tok_Left_Paren, "`(`");
if Token = Tok_Left_Paren then
- Scan;
+ Scan (In_Tree);
end if;
- Parse_String_Type_List (First_String => First_String);
- Set_First_Literal_String (String_Type, To => First_String);
+ Parse_String_Type_List
+ (In_Tree => In_Tree, First_String => First_String);
+ Set_First_Literal_String (String_Type, In_Tree, To => First_String);
Expect (Tok_Right_Paren, "`)`");
if Token = Tok_Right_Paren then
- Scan;
+ Scan (In_Tree);
end if;
end Parse_String_Type_Declaration;
--------------------------------
procedure Parse_Variable_Declaration
- (Variable : out Project_Node_Id;
+ (In_Tree : Project_Node_Tree_Ref;
+ Variable : out Project_Node_Id;
Current_Project : Project_Node_Id;
Current_Package : Project_Node_Id)
is
Expression_Location : Source_Ptr;
- String_Type_Name : Name_Id := No_Name;
- Project_String_Type_Name : Name_Id := No_Name;
- Type_Location : Source_Ptr := No_Location;
- Project_Location : Source_Ptr := No_Location;
- Expression : Project_Node_Id := Empty_Node;
+ String_Type_Name : Name_Id := No_Name;
+ Project_String_Type_Name : Name_Id := No_Name;
+ Type_Location : Source_Ptr := No_Location;
+ Project_Location : Source_Ptr := No_Location;
+ Expression : Project_Node_Id := Empty_Node;
Variable_Name : constant Name_Id := Token_Name;
- OK : Boolean := True;
+ OK : Boolean := True;
begin
Variable :=
- Default_Project_Node (Of_Kind => N_Variable_Declaration);
- Set_Name_Of (Variable, To => Variable_Name);
- Set_Location_Of (Variable, To => Token_Ptr);
+ Default_Project_Node
+ (Of_Kind => N_Variable_Declaration, In_Tree => In_Tree);
+ Set_Name_Of (Variable, In_Tree, To => Variable_Name);
+ Set_Location_Of (Variable, In_Tree, To => Token_Ptr);
-- Scan past the variable name
- Scan;
+ Scan (In_Tree);
if Token = Tok_Colon then
-- Typed string variable declaration
- Scan;
- Set_Kind_Of (Variable, N_Typed_Variable_Declaration);
+ Scan (In_Tree);
+ Set_Kind_Of (Variable, In_Tree, N_Typed_Variable_Declaration);
Expect (Tok_Identifier, "identifier");
OK := Token = Tok_Identifier;
if OK then
String_Type_Name := Token_Name;
Type_Location := Token_Ptr;
- Scan;
+ Scan (In_Tree);
if Token = Tok_Dot then
Project_String_Type_Name := String_Type_Name;
-- Scan past the dot
- Scan;
+ Scan (In_Tree);
Expect (Tok_Identifier, "identifier");
if Token = Tok_Identifier then
String_Type_Name := Token_Name;
Type_Location := Token_Ptr;
- Scan;
+ Scan (In_Tree);
else
OK := False;
end if;
if OK then
declare
Current : Project_Node_Id :=
- First_String_Type_Of (Current_Project);
+ First_String_Type_Of (Current_Project, In_Tree);
begin
if Project_String_Type_Name /= No_Name then
The_Project_Name_And_Node : constant
Tree_Private_Part.Project_Name_And_Node :=
Tree_Private_Part.Projects_Htable.Get
- (Project_String_Type_Name);
+ (In_Tree.Projects_HT, Project_String_Type_Name);
use Tree_Private_Part;
else
Current :=
First_String_Type_Of
- (The_Project_Name_And_Node.Node);
+ (The_Project_Name_And_Node.Node, In_Tree);
end if;
end;
end if;
while Current /= Empty_Node
- and then Name_Of (Current) /= String_Type_Name
+ and then Name_Of (Current, In_Tree) /= String_Type_Name
loop
- Current := Next_String_Type (Current);
+ Current := Next_String_Type (Current, In_Tree);
end loop;
if Current = Empty_Node then
OK := False;
else
Set_String_Type_Of
- (Variable, To => Current);
+ (Variable, In_Tree, To => Current);
end if;
end;
end if;
OK := OK and (Token = Tok_Colon_Equal);
if Token = Tok_Colon_Equal then
- Scan;
+ Scan (In_Tree);
end if;
-- Get the single string or string list value
Expression_Location := Token_Ptr;
Parse_Expression
- (Expression => Expression,
+ (In_Tree => In_Tree,
+ Expression => Expression,
Current_Project => Current_Project,
Current_Package => Current_Package,
Optional_Index => False);
- Set_Expression_Of (Variable, To => Expression);
+ Set_Expression_Of (Variable, In_Tree, To => Expression);
if Expression /= Empty_Node then
-- A typed string must have a single string value, not a list
- if Kind_Of (Variable) = N_Typed_Variable_Declaration
- and then Expression_Kind_Of (Expression) = List
+ if Kind_Of (Variable, In_Tree) = N_Typed_Variable_Declaration
+ and then Expression_Kind_Of (Expression, In_Tree) = List
then
Error_Msg
("expression must be a single string", Expression_Location);
end if;
Set_Expression_Kind_Of
- (Variable, To => Expression_Kind_Of (Expression));
+ (Variable, In_Tree,
+ To => Expression_Kind_Of (Expression, In_Tree));
end if;
if OK then
begin
if Current_Package /= Empty_Node then
- The_Variable := First_Variable_Of (Current_Package);
+ The_Variable := First_Variable_Of (Current_Package, In_Tree);
elsif Current_Project /= Empty_Node then
- The_Variable := First_Variable_Of (Current_Project);
+ The_Variable := First_Variable_Of (Current_Project, In_Tree);
end if;
while The_Variable /= Empty_Node
- and then Name_Of (The_Variable) /= Variable_Name
+ and then Name_Of (The_Variable, In_Tree) /= Variable_Name
loop
- The_Variable := Next_Variable (The_Variable);
+ The_Variable := Next_Variable (The_Variable, In_Tree);
end loop;
if The_Variable = Empty_Node then
if Current_Package /= Empty_Node then
Set_Next_Variable
- (Variable, To => First_Variable_Of (Current_Package));
- Set_First_Variable_Of (Current_Package, To => Variable);
+ (Variable, In_Tree,
+ To => First_Variable_Of (Current_Package, In_Tree));
+ Set_First_Variable_Of
+ (Current_Package, In_Tree, To => Variable);
elsif Current_Project /= Empty_Node then
Set_Next_Variable
- (Variable, To => First_Variable_Of (Current_Project));
- Set_First_Variable_Of (Current_Project, To => Variable);
+ (Variable, In_Tree,
+ To => First_Variable_Of (Current_Project, In_Tree));
+ Set_First_Variable_Of
+ (Current_Project, In_Tree, To => Variable);
end if;
else
- if Expression_Kind_Of (Variable) /= Undefined then
- if Expression_Kind_Of (The_Variable) = Undefined then
+ if Expression_Kind_Of (Variable, In_Tree) /= Undefined then
+ if
+ Expression_Kind_Of (The_Variable, In_Tree) = Undefined
+ then
Set_Expression_Kind_Of
- (The_Variable, To => Expression_Kind_Of (Variable));
+ (The_Variable, In_Tree,
+ To => Expression_Kind_Of (Variable, In_Tree));
else
- if Expression_Kind_Of (The_Variable) /=
- Expression_Kind_Of (Variable)
+ if Expression_Kind_Of (The_Variable, In_Tree) /=
+ Expression_Kind_Of (Variable, In_Tree)
then
Error_Msg ("wrong expression kind for variable """ &
- Get_Name_String (Name_Of (The_Variable)) &
+ Get_Name_String
+ (Name_Of (The_Variable, In_Tree)) &
"""",
Expression_Location);
end if;