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|
------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- S P R I N T --
-- --
-- B o d y --
-- --
-- --
-- Copyright (C) 1992-2002, 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 2, 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 COPYING. If not, write --
-- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, --
-- MA 02111-1307, USA. --
-- --
-- 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 Casing; use Casing;
with Csets; use Csets;
with Debug; use Debug;
with Einfo; use Einfo;
with Lib; use Lib;
with Namet; use Namet;
with Nlists; use Nlists;
with Opt; use Opt;
with Output; use Output;
with Rtsfind; use Rtsfind;
with Sinfo; use Sinfo;
with Sinput; use Sinput;
with Sinput.D; use Sinput.D;
with Snames; use Snames;
with Stand; use Stand;
with Stringt; use Stringt;
with Uintp; use Uintp;
with Uname; use Uname;
with Urealp; use Urealp;
package body Sprint is
Debug_Node : Node_Id := Empty;
-- If we are in Debug_Generated_Code mode, then this location is set
-- to the current node requiring Sloc fixup, until Set_Debug_Sloc is
-- called to set the proper value. The call clears it back to Empty.
Debug_Sloc : Source_Ptr;
-- Sloc of first byte of line currently being written if we are
-- generating a source debug file.
Dump_Original_Only : Boolean;
-- Set True if the -gnatdo (dump original tree) flag is set
Dump_Generated_Only : Boolean;
-- Set True if the -gnatG (dump generated tree) debug flag is set
-- or for Print_Generated_Code (-gnatG) or Dump_Gnerated_Code (-gnatD).
Dump_Freeze_Null : Boolean;
-- Set True if freeze nodes and non-source null statements output
Indent : Int := 0;
-- Number of columns for current line output indentation
Indent_Annull_Flag : Boolean := False;
-- Set True if subsequent Write_Indent call to be ignored, gets reset
-- by this call, so it is only active to suppress a single indent call.
Line_Limit : constant := 72;
-- Limit value for chopping long lines
Freeze_Indent : Int := 0;
-- Keep track of freeze indent level (controls blank lines before
-- procedures within expression freeze actions)
-------------------------------
-- Operator Precedence Table --
-------------------------------
-- This table is used to decide whether a subexpression needs to be
-- parenthesized. The rule is that if an operand of an operator (which
-- for this purpose includes AND THEN and OR ELSE) is itself an operator
-- with a lower precedence than the operator (or equal precedence if
-- appearing as the right operand), then parentheses are required.
Op_Prec : array (N_Subexpr) of Short_Short_Integer :=
(N_Op_And => 1,
N_Op_Or => 1,
N_Op_Xor => 1,
N_And_Then => 1,
N_Or_Else => 1,
N_In => 2,
N_Not_In => 2,
N_Op_Eq => 2,
N_Op_Ge => 2,
N_Op_Gt => 2,
N_Op_Le => 2,
N_Op_Lt => 2,
N_Op_Ne => 2,
N_Op_Add => 3,
N_Op_Concat => 3,
N_Op_Subtract => 3,
N_Op_Plus => 3,
N_Op_Minus => 3,
N_Op_Divide => 4,
N_Op_Mod => 4,
N_Op_Rem => 4,
N_Op_Multiply => 4,
N_Op_Expon => 5,
N_Op_Abs => 5,
N_Op_Not => 5,
others => 6);
procedure Sprint_Left_Opnd (N : Node_Id);
-- Print left operand of operator, parenthesizing if necessary
procedure Sprint_Right_Opnd (N : Node_Id);
-- Print right operand of operator, parenthesizing if necessary
-----------------------
-- Local Subprograms --
-----------------------
procedure Col_Check (N : Nat);
-- Check that at least N characters remain on current line, and if not,
-- then start an extra line with two characters extra indentation for
-- continuing text on the next line.
procedure Indent_Annull;
-- Causes following call to Write_Indent to be ignored. This is used when
-- a higher level node wants to stop a lower level node from starting a
-- new line, when it would otherwise be inclined to do so (e.g. the case
-- of an accept statement called from an accept alternative with a guard)
procedure Indent_Begin;
-- Increase indentation level
procedure Indent_End;
-- Decrease indentation level
procedure Print_Debug_Line (S : String);
-- Used to print output lines in Debug_Generated_Code mode (this is used
-- as the argument for a call to Set_Special_Output in package Output).
procedure Process_TFAI_RR_Flags (Nod : Node_Id);
-- Given a divide, multiplication or division node, check the flags
-- Treat_Fixed_As_Integer and Rounded_Flags, and if set, output the
-- appropriate special syntax characters (# and @).
procedure Set_Debug_Sloc;
-- If Debug_Node is non-empty, this routine sets the appropriate value
-- in its Sloc field, from the current location in the debug source file
-- that is currently being written. Note that Debug_Node is always empty
-- if a debug source file is not being written.
procedure Sprint_Bar_List (List : List_Id);
-- Print the given list with items separated by vertical bars
procedure Sprint_Node_Actual (Node : Node_Id);
-- This routine prints its node argument. It is a lower level routine than
-- Sprint_Node, in that it does not bother about rewritten trees.
procedure Sprint_Node_Sloc (Node : Node_Id);
-- Like Sprint_Node, but in addition, in Debug_Generated_Code mode,
-- sets the Sloc of the current debug node to be a copy of the Sloc
-- of the sprinted node Node. Note that this is done after printing
-- Node, so that the Sloc is the proper updated value for the debug file.
procedure Write_Char_Sloc (C : Character);
-- Like Write_Char, except that if C is non-blank, Set_Debug_Sloc is
-- called to ensure that the current node has a proper Sloc set.
procedure Write_Condition_And_Reason (Node : Node_Id);
-- Write Condition and Reason codes of Raise_xxx_Error node
procedure Write_Discr_Specs (N : Node_Id);
-- Output discriminant specification for node, which is any of the type
-- declarations that can have discriminants.
procedure Write_Ekind (E : Entity_Id);
-- Write the String corresponding to the Ekind without "E_".
procedure Write_Id (N : Node_Id);
-- N is a node with a Chars field. This procedure writes the name that
-- will be used in the generated code associated with the name. For a
-- node with no associated entity, this is simply the Chars field. For
-- the case where there is an entity associated with the node, we print
-- the name associated with the entity (since it may have been encoded).
-- One other special case is that an entity has an active external name
-- (i.e. an external name present with no address clause), then this
-- external name is output.
function Write_Identifiers (Node : Node_Id) return Boolean;
-- Handle node where the grammar has a list of defining identifiers, but
-- the tree has a separate declaration for each identifier. Handles the
-- printing of the defining identifier, and returns True if the type and
-- initialization information is to be printed, False if it is to be
-- skipped (the latter case happens when printing defining identifiers
-- other than the first in the original tree output case).
procedure Write_Implicit_Def (E : Entity_Id);
pragma Warnings (Off, Write_Implicit_Def);
-- Write the definition of the implicit type E according to its Ekind
-- For now a debugging procedure, but might be used in the future.
procedure Write_Indent;
-- Start a new line and write indentation spacing
function Write_Indent_Identifiers (Node : Node_Id) return Boolean;
-- Like Write_Identifiers except that each new printed declaration
-- is at the start of a new line.
function Write_Indent_Identifiers_Sloc (Node : Node_Id) return Boolean;
-- Like Write_Indent_Identifiers except that in Debug_Generated_Code
-- mode, the Sloc of the current debug node is set to point ot the
-- first output identifier.
procedure Write_Indent_Str (S : String);
-- Start a new line and write indent spacing followed by given string
procedure Write_Indent_Str_Sloc (S : String);
-- Like Write_Indent_Str, but in addition, in Debug_Generated_Code mode,
-- the Sloc of the current node is set to the first non-blank character
-- in the string S.
procedure Write_Name_With_Col_Check (N : Name_Id);
-- Write name (using Write_Name) with initial column check, and possible
-- initial Write_Indent (to get new line) if current line is too full.
procedure Write_Name_With_Col_Check_Sloc (N : Name_Id);
-- Like Write_Name_With_Col_Check but in addition, in Debug_Generated_Code
-- mode, sets Sloc of current debug node to first character of name.
procedure Write_Operator (N : Node_Id; S : String);
-- Like Write_Str_Sloc, used for operators, encloses the string in
-- characters {} if the Do_Overflow flag is set on the node N.
procedure Write_Param_Specs (N : Node_Id);
-- Output parameter specifications for node (which is either a function
-- or procedure specification with a Parameter_Specifications field)
procedure Write_Rewrite_Str (S : String);
-- Writes out a string (typically containing <<< or >>>}) for a node
-- created by rewriting the tree. Suppressed if we are outputting the
-- generated code only, since in this case we don't specially mark nodes
-- created by rewriting).
procedure Write_Str_Sloc (S : String);
-- Like Write_Str, but sets debug Sloc of current debug node to first
-- non-blank character if a current debug node is active.
procedure Write_Str_With_Col_Check (S : String);
-- Write string (using Write_Str) with initial column check, and possible
-- initial Write_Indent (to get new line) if current line is too full.
procedure Write_Str_With_Col_Check_Sloc (S : String);
-- Like Write_Str_WIth_Col_Check, but sets debug Sloc of current debug
-- node to first non-blank character if a current debug node is active.
procedure Write_Uint_With_Col_Check_Sloc (U : Uint; Format : UI_Format);
-- Write Uint (using UI_Write) with initial column check, and possible
-- initial Write_Indent (to get new line) if current line is too full.
-- The format parameter determines the output format (see UI_Write).
-- In addition, in Debug_Generated_Code mode, sets the current node
-- Sloc to the first character of the output value.
procedure Write_Ureal_With_Col_Check_Sloc (U : Ureal);
-- Write Ureal (using same output format as UR_Write) with column checks
-- and a possible initial Write_Indent (to get new line) if current line
-- is too full. In addition, in Debug_Generated_Code mode, sets the
-- current node Sloc to the first character of the output value.
---------------
-- Col_Check --
---------------
procedure Col_Check (N : Nat) is
begin
if N + Column > Line_Limit then
Write_Indent_Str (" ");
end if;
end Col_Check;
-------------------
-- Indent_Annull --
-------------------
procedure Indent_Annull is
begin
Indent_Annull_Flag := True;
end Indent_Annull;
------------------
-- Indent_Begin --
------------------
procedure Indent_Begin is
begin
Indent := Indent + 3;
end Indent_Begin;
----------------
-- Indent_End --
----------------
procedure Indent_End is
begin
Indent := Indent - 3;
end Indent_End;
--------
-- pg --
--------
procedure pg (Node : Node_Id) is
begin
Dump_Generated_Only := True;
Dump_Original_Only := False;
Sprint_Node (Node);
Write_Eol;
end pg;
--------
-- po --
--------
procedure po (Node : Node_Id) is
begin
Dump_Generated_Only := False;
Dump_Original_Only := True;
Sprint_Node (Node);
Write_Eol;
end po;
----------------------
-- Print_Debug_Line --
----------------------
procedure Print_Debug_Line (S : String) is
begin
Write_Debug_Line (S, Debug_Sloc);
end Print_Debug_Line;
---------------------------
-- Process_TFAI_RR_Flags --
---------------------------
procedure Process_TFAI_RR_Flags (Nod : Node_Id) is
begin
if Treat_Fixed_As_Integer (Nod) then
Write_Char ('#');
end if;
if Rounded_Result (Nod) then
Write_Char ('@');
end if;
end Process_TFAI_RR_Flags;
--------
-- ps --
--------
procedure ps (Node : Node_Id) is
begin
Dump_Generated_Only := False;
Dump_Original_Only := False;
Sprint_Node (Node);
Write_Eol;
end ps;
--------------------
-- Set_Debug_Sloc --
--------------------
procedure Set_Debug_Sloc is
begin
if Present (Debug_Node) then
Set_Sloc (Debug_Node, Debug_Sloc + Source_Ptr (Column - 1));
Debug_Node := Empty;
end if;
end Set_Debug_Sloc;
-----------------
-- Source_Dump --
-----------------
procedure Source_Dump is
procedure Underline;
-- Put underline under string we just printed
procedure Underline is
Col : constant Int := Column;
begin
Write_Eol;
while Col > Column loop
Write_Char ('-');
end loop;
Write_Eol;
end Underline;
-- Start of processing for Tree_Dump.
begin
Dump_Generated_Only := Debug_Flag_G or
Print_Generated_Code or
Debug_Generated_Code;
Dump_Original_Only := Debug_Flag_O;
Dump_Freeze_Null := Debug_Flag_S or Debug_Flag_G;
-- Note that we turn off the tree dump flags immediately, before
-- starting the dump. This avoids generating two copies of the dump
-- if an abort occurs after printing the dump, and more importantly,
-- avoids an infinite loop if an abort occurs during the dump.
if Debug_Flag_Z then
Debug_Flag_Z := False;
Write_Eol;
Write_Eol;
Write_Str ("Source recreated from tree of Standard (spec)");
Underline;
Sprint_Node (Standard_Package_Node);
Write_Eol;
Write_Eol;
end if;
if Debug_Flag_S or Dump_Generated_Only or Dump_Original_Only then
Debug_Flag_G := False;
Debug_Flag_O := False;
Debug_Flag_S := False;
-- Dump requested units
for U in Main_Unit .. Last_Unit loop
-- Dump all units if -gnatdf set, otherwise we dump only
-- the source files that are in the extended main source.
if Debug_Flag_F
or else In_Extended_Main_Source_Unit (Cunit_Entity (U))
then
-- If we are generating debug files, setup to write them
if Debug_Generated_Code then
Set_Special_Output (Print_Debug_Line'Access);
Create_Debug_Source (Source_Index (U), Debug_Sloc);
Sprint_Node (Cunit (U));
Write_Eol;
Close_Debug_Source;
Set_Special_Output (null);
-- Normal output to standard output file
else
Write_Str ("Source recreated from tree for ");
Write_Unit_Name (Unit_Name (U));
Underline;
Sprint_Node (Cunit (U));
Write_Eol;
Write_Eol;
end if;
end if;
end loop;
end if;
end Source_Dump;
---------------------
-- Sprint_Bar_List --
---------------------
procedure Sprint_Bar_List (List : List_Id) is
Node : Node_Id;
begin
if Is_Non_Empty_List (List) then
Node := First (List);
loop
Sprint_Node (Node);
Next (Node);
exit when Node = Empty;
Write_Str (" | ");
end loop;
end if;
end Sprint_Bar_List;
-----------------------
-- Sprint_Comma_List --
-----------------------
procedure Sprint_Comma_List (List : List_Id) is
Node : Node_Id;
begin
if Is_Non_Empty_List (List) then
Node := First (List);
loop
Sprint_Node (Node);
Next (Node);
exit when Node = Empty;
if not Is_Rewrite_Insertion (Node)
or else not Dump_Original_Only
then
Write_Str (", ");
end if;
end loop;
end if;
end Sprint_Comma_List;
--------------------------
-- Sprint_Indented_List --
--------------------------
procedure Sprint_Indented_List (List : List_Id) is
begin
Indent_Begin;
Sprint_Node_List (List);
Indent_End;
end Sprint_Indented_List;
---------------------
-- Sprint_Left_Opnd --
---------------------
procedure Sprint_Left_Opnd (N : Node_Id) is
Opnd : constant Node_Id := Left_Opnd (N);
begin
if Paren_Count (Opnd) /= 0
or else Op_Prec (Nkind (Opnd)) >= Op_Prec (Nkind (N))
then
Sprint_Node (Opnd);
else
Write_Char ('(');
Sprint_Node (Opnd);
Write_Char (')');
end if;
end Sprint_Left_Opnd;
-----------------
-- Sprint_Node --
-----------------
procedure Sprint_Node (Node : Node_Id) is
begin
if Is_Rewrite_Insertion (Node) then
if not Dump_Original_Only then
-- For special cases of nodes that always output <<< >>>
-- do not duplicate the output at this point.
if Nkind (Node) = N_Freeze_Entity
or else Nkind (Node) = N_Implicit_Label_Declaration
then
Sprint_Node_Actual (Node);
-- Normal case where <<< >>> may be required
else
Write_Rewrite_Str ("<<<");
Sprint_Node_Actual (Node);
Write_Rewrite_Str (">>>");
end if;
end if;
elsif Is_Rewrite_Substitution (Node) then
-- Case of dump generated only
if Dump_Generated_Only then
Sprint_Node_Actual (Node);
-- Case of dump original only
elsif Dump_Original_Only then
Sprint_Node_Actual (Original_Node (Node));
-- Case of both being dumped
else
Sprint_Node_Actual (Original_Node (Node));
Write_Rewrite_Str ("<<<");
Sprint_Node_Actual (Node);
Write_Rewrite_Str (">>>");
end if;
else
Sprint_Node_Actual (Node);
end if;
end Sprint_Node;
------------------------
-- Sprint_Node_Actual --
------------------------
procedure Sprint_Node_Actual (Node : Node_Id) is
Save_Debug_Node : constant Node_Id := Debug_Node;
begin
if Node = Empty then
return;
end if;
for J in 1 .. Paren_Count (Node) loop
Write_Str_With_Col_Check ("(");
end loop;
-- Setup node for Sloc fixup if writing a debug source file. Note
-- that we take care of any previous node not yet properly set.
if Debug_Generated_Code then
Debug_Node := Node;
end if;
if Nkind (Node) in N_Subexpr
and then Do_Range_Check (Node)
then
Write_Str_With_Col_Check ("{");
end if;
-- Select print circuit based on node kind
case Nkind (Node) is
when N_Abort_Statement =>
Write_Indent_Str_Sloc ("abort ");
Sprint_Comma_List (Names (Node));
Write_Char (';');
when N_Abortable_Part =>
Set_Debug_Sloc;
Write_Str_Sloc ("abort ");
Sprint_Indented_List (Statements (Node));
when N_Abstract_Subprogram_Declaration =>
Write_Indent;
Sprint_Node (Specification (Node));
Write_Str_With_Col_Check (" is ");
Write_Str_Sloc ("abstract;");
when N_Accept_Alternative =>
Sprint_Node_List (Pragmas_Before (Node));
if Present (Condition (Node)) then
Write_Indent_Str ("when ");
Sprint_Node (Condition (Node));
Write_Str (" => ");
Indent_Annull;
end if;
Sprint_Node_Sloc (Accept_Statement (Node));
Sprint_Node_List (Statements (Node));
when N_Accept_Statement =>
Write_Indent_Str_Sloc ("accept ");
Write_Id (Entry_Direct_Name (Node));
if Present (Entry_Index (Node)) then
Write_Str_With_Col_Check (" (");
Sprint_Node (Entry_Index (Node));
Write_Char (')');
end if;
Write_Param_Specs (Node);
if Present (Handled_Statement_Sequence (Node)) then
Write_Str_With_Col_Check (" do");
Sprint_Node (Handled_Statement_Sequence (Node));
Write_Indent_Str ("end ");
Write_Id (Entry_Direct_Name (Node));
end if;
Write_Char (';');
when N_Access_Definition =>
Write_Str_With_Col_Check_Sloc ("access ");
Sprint_Node (Subtype_Mark (Node));
when N_Access_Function_Definition =>
Write_Str_With_Col_Check_Sloc ("access ");
if Protected_Present (Node) then
Write_Str_With_Col_Check ("protected ");
end if;
Write_Str_With_Col_Check ("function");
Write_Param_Specs (Node);
Write_Str_With_Col_Check (" return ");
Sprint_Node (Subtype_Mark (Node));
when N_Access_Procedure_Definition =>
Write_Str_With_Col_Check_Sloc ("access ");
if Protected_Present (Node) then
Write_Str_With_Col_Check ("protected ");
end if;
Write_Str_With_Col_Check ("procedure");
Write_Param_Specs (Node);
when N_Access_To_Object_Definition =>
Write_Str_With_Col_Check_Sloc ("access ");
if All_Present (Node) then
Write_Str_With_Col_Check ("all ");
elsif Constant_Present (Node) then
Write_Str_With_Col_Check ("constant ");
end if;
Sprint_Node (Subtype_Indication (Node));
when N_Aggregate =>
if Null_Record_Present (Node) then
Write_Str_With_Col_Check_Sloc ("(null record)");
else
Write_Str_With_Col_Check_Sloc ("(");
if Present (Expressions (Node)) then
Sprint_Comma_List (Expressions (Node));
if Present (Component_Associations (Node)) then
Write_Str (", ");
end if;
end if;
if Present (Component_Associations (Node)) then
Indent_Begin;
declare
Nd : Node_Id;
begin
Nd := First (Component_Associations (Node));
loop
Write_Indent;
Sprint_Node (Nd);
Next (Nd);
exit when No (Nd);
if not Is_Rewrite_Insertion (Nd)
or else not Dump_Original_Only
then
Write_Str (", ");
end if;
end loop;
end;
Indent_End;
end if;
Write_Char (')');
end if;
when N_Allocator =>
Write_Str_With_Col_Check_Sloc ("new ");
Sprint_Node (Expression (Node));
if Present (Storage_Pool (Node)) then
Write_Str_With_Col_Check ("[storage_pool = ");
Sprint_Node (Storage_Pool (Node));
Write_Char (']');
end if;
when N_And_Then =>
Sprint_Left_Opnd (Node);
Write_Str_Sloc (" and then ");
Sprint_Right_Opnd (Node);
when N_At_Clause =>
Write_Indent_Str_Sloc ("for ");
Write_Id (Identifier (Node));
Write_Str_With_Col_Check (" use at ");
Sprint_Node (Expression (Node));
Write_Char (';');
when N_Assignment_Statement =>
Write_Indent;
Sprint_Node (Name (Node));
Write_Str_Sloc (" := ");
Sprint_Node (Expression (Node));
Write_Char (';');
when N_Asynchronous_Select =>
Write_Indent_Str_Sloc ("select");
Indent_Begin;
Sprint_Node (Triggering_Alternative (Node));
Indent_End;
-- Note: let the printing of Abortable_Part handle outputting
-- the ABORT keyword, so that the Slco can be set correctly.
Write_Indent_Str ("then ");
Sprint_Node (Abortable_Part (Node));
Write_Indent_Str ("end select;");
when N_Attribute_Definition_Clause =>
Write_Indent_Str_Sloc ("for ");
Sprint_Node (Name (Node));
Write_Char (''');
Write_Name_With_Col_Check (Chars (Node));
Write_Str_With_Col_Check (" use ");
Sprint_Node (Expression (Node));
Write_Char (';');
when N_Attribute_Reference =>
if Is_Procedure_Attribute_Name (Attribute_Name (Node)) then
Write_Indent;
end if;
Sprint_Node (Prefix (Node));
Write_Char_Sloc (''');
Write_Name_With_Col_Check (Attribute_Name (Node));
Sprint_Paren_Comma_List (Expressions (Node));
if Is_Procedure_Attribute_Name (Attribute_Name (Node)) then
Write_Char (';');
end if;
when N_Block_Statement =>
Write_Indent;
if Present (Identifier (Node))
and then (not Has_Created_Identifier (Node)
or else not Dump_Original_Only)
then
Write_Rewrite_Str ("<<<");
Write_Id (Identifier (Node));
Write_Str (" : ");
Write_Rewrite_Str (">>>");
end if;
if Present (Declarations (Node)) then
Write_Str_With_Col_Check_Sloc ("declare");
Sprint_Indented_List (Declarations (Node));
Write_Indent;
end if;
Write_Str_With_Col_Check_Sloc ("begin");
Sprint_Node (Handled_Statement_Sequence (Node));
Write_Indent_Str ("end");
if Present (Identifier (Node))
and then (not Has_Created_Identifier (Node)
or else not Dump_Original_Only)
then
Write_Rewrite_Str ("<<<");
Write_Char (' ');
Write_Id (Identifier (Node));
Write_Rewrite_Str (">>>");
end if;
Write_Char (';');
when N_Case_Statement =>
Write_Indent_Str_Sloc ("case ");
Sprint_Node (Expression (Node));
Write_Str (" is");
Sprint_Indented_List (Alternatives (Node));
Write_Indent_Str ("end case;");
when N_Case_Statement_Alternative =>
Write_Indent_Str_Sloc ("when ");
Sprint_Bar_List (Discrete_Choices (Node));
Write_Str (" => ");
Sprint_Indented_List (Statements (Node));
when N_Character_Literal =>
if Column > 70 then
Write_Indent_Str (" ");
end if;
Write_Char_Sloc (''');
Write_Char_Code (Char_Literal_Value (Node));
Write_Char (''');
when N_Code_Statement =>
Write_Indent;
Set_Debug_Sloc;
Sprint_Node (Expression (Node));
Write_Char (';');
when N_Compilation_Unit =>
Sprint_Node_List (Context_Items (Node));
Sprint_Opt_Node_List (Declarations (Aux_Decls_Node (Node)));
if Private_Present (Node) then
Write_Indent_Str ("private ");
Indent_Annull;
end if;
Sprint_Node_Sloc (Unit (Node));
if Present (Actions (Aux_Decls_Node (Node)))
or else
Present (Pragmas_After (Aux_Decls_Node (Node)))
then
Write_Indent;
end if;
Sprint_Opt_Node_List (Actions (Aux_Decls_Node (Node)));
Sprint_Opt_Node_List (Pragmas_After (Aux_Decls_Node (Node)));
when N_Compilation_Unit_Aux =>
null; -- nothing to do, never used, see above
when N_Component_Association =>
Set_Debug_Sloc;
Sprint_Bar_List (Choices (Node));
Write_Str (" => ");
Sprint_Node (Expression (Node));
when N_Component_Clause =>
Write_Indent;
Sprint_Node (Component_Name (Node));
Write_Str_Sloc (" at ");
Sprint_Node (Position (Node));
Write_Char (' ');
Write_Str_With_Col_Check ("range ");
Sprint_Node (First_Bit (Node));
Write_Str (" .. ");
Sprint_Node (Last_Bit (Node));
Write_Char (';');
when N_Component_Declaration =>
if Write_Indent_Identifiers_Sloc (Node) then
Write_Str (" : ");
if Aliased_Present (Node) then
Write_Str_With_Col_Check ("aliased ");
end if;
Sprint_Node (Subtype_Indication (Node));
if Present (Expression (Node)) then
Write_Str (" := ");
Sprint_Node (Expression (Node));
end if;
Write_Char (';');
end if;
when N_Component_List =>
if Null_Present (Node) then
Indent_Begin;
Write_Indent_Str_Sloc ("null");
Write_Char (';');
Indent_End;
else
Set_Debug_Sloc;
Sprint_Indented_List (Component_Items (Node));
Sprint_Node (Variant_Part (Node));
end if;
when N_Conditional_Entry_Call =>
Write_Indent_Str_Sloc ("select");
Indent_Begin;
Sprint_Node (Entry_Call_Alternative (Node));
Indent_End;
Write_Indent_Str ("else");
Sprint_Indented_List (Else_Statements (Node));
Write_Indent_Str ("end select;");
when N_Conditional_Expression =>
declare
Condition : constant Node_Id := First (Expressions (Node));
Then_Expr : constant Node_Id := Next (Condition);
Else_Expr : constant Node_Id := Next (Then_Expr);
begin
Write_Str_With_Col_Check_Sloc ("(if ");
Sprint_Node (Condition);
Write_Str_With_Col_Check (" then ");
Sprint_Node (Then_Expr);
Write_Str_With_Col_Check (" else ");
Sprint_Node (Else_Expr);
Write_Char (')');
end;
when N_Constrained_Array_Definition =>
Write_Str_With_Col_Check_Sloc ("array ");
Sprint_Paren_Comma_List (Discrete_Subtype_Definitions (Node));
Write_Str (" of ");
if Aliased_Present (Node) then
Write_Str_With_Col_Check ("aliased ");
end if;
Sprint_Node (Subtype_Indication (Node));
when N_Decimal_Fixed_Point_Definition =>
Write_Str_With_Col_Check_Sloc (" delta ");
Sprint_Node (Delta_Expression (Node));
Write_Str_With_Col_Check ("digits ");
Sprint_Node (Digits_Expression (Node));
Sprint_Opt_Node (Real_Range_Specification (Node));
when N_Defining_Character_Literal =>
Write_Name_With_Col_Check_Sloc (Chars (Node));
when N_Defining_Identifier =>
Set_Debug_Sloc;
Write_Id (Node);
when N_Defining_Operator_Symbol =>
Write_Name_With_Col_Check_Sloc (Chars (Node));
when N_Defining_Program_Unit_Name =>
Set_Debug_Sloc;
Sprint_Node (Name (Node));
Write_Char ('.');
Write_Id (Defining_Identifier (Node));
when N_Delay_Alternative =>
Sprint_Node_List (Pragmas_Before (Node));
if Present (Condition (Node)) then
Write_Indent;
Write_Str_With_Col_Check ("when ");
Sprint_Node (Condition (Node));
Write_Str (" => ");
Indent_Annull;
end if;
Sprint_Node_Sloc (Delay_Statement (Node));
Sprint_Node_List (Statements (Node));
when N_Delay_Relative_Statement =>
Write_Indent_Str_Sloc ("delay ");
Sprint_Node (Expression (Node));
Write_Char (';');
when N_Delay_Until_Statement =>
Write_Indent_Str_Sloc ("delay until ");
Sprint_Node (Expression (Node));
Write_Char (';');
when N_Delta_Constraint =>
Write_Str_With_Col_Check_Sloc ("delta ");
Sprint_Node (Delta_Expression (Node));
Sprint_Opt_Node (Range_Constraint (Node));
when N_Derived_Type_Definition =>
if Abstract_Present (Node) then
Write_Str_With_Col_Check ("abstract ");
end if;
Write_Str_With_Col_Check_Sloc ("new ");
Sprint_Node (Subtype_Indication (Node));
if Present (Record_Extension_Part (Node)) then
Write_Str_With_Col_Check (" with ");
Sprint_Node (Record_Extension_Part (Node));
end if;
when N_Designator =>
Sprint_Node (Name (Node));
Write_Char_Sloc ('.');
Write_Id (Identifier (Node));
when N_Digits_Constraint =>
Write_Str_With_Col_Check_Sloc ("digits ");
Sprint_Node (Digits_Expression (Node));
Sprint_Opt_Node (Range_Constraint (Node));
when N_Discriminant_Association =>
Set_Debug_Sloc;
if Present (Selector_Names (Node)) then
Sprint_Bar_List (Selector_Names (Node));
Write_Str (" => ");
end if;
Set_Debug_Sloc;
Sprint_Node (Expression (Node));
when N_Discriminant_Specification =>
Set_Debug_Sloc;
if Write_Identifiers (Node) then
Write_Str (" : ");
Sprint_Node (Discriminant_Type (Node));
if Present (Expression (Node)) then
Write_Str (" := ");
Sprint_Node (Expression (Node));
end if;
else
Write_Str (", ");
end if;
when N_Elsif_Part =>
Write_Indent_Str_Sloc ("elsif ");
Sprint_Node (Condition (Node));
Write_Str_With_Col_Check (" then");
Sprint_Indented_List (Then_Statements (Node));
when N_Empty =>
null;
when N_Entry_Body =>
Write_Indent_Str_Sloc ("entry ");
Write_Id (Defining_Identifier (Node));
Sprint_Node (Entry_Body_Formal_Part (Node));
Write_Str_With_Col_Check (" is");
Sprint_Indented_List (Declarations (Node));
Write_Indent_Str ("begin");
Sprint_Node (Handled_Statement_Sequence (Node));
Write_Indent_Str ("end ");
Write_Id (Defining_Identifier (Node));
Write_Char (';');
when N_Entry_Body_Formal_Part =>
if Present (Entry_Index_Specification (Node)) then
Write_Str_With_Col_Check_Sloc (" (");
Sprint_Node (Entry_Index_Specification (Node));
Write_Char (')');
end if;
Write_Param_Specs (Node);
Write_Str_With_Col_Check_Sloc (" when ");
Sprint_Node (Condition (Node));
when N_Entry_Call_Alternative =>
Sprint_Node_List (Pragmas_Before (Node));
Sprint_Node_Sloc (Entry_Call_Statement (Node));
Sprint_Node_List (Statements (Node));
when N_Entry_Call_Statement =>
Write_Indent;
Sprint_Node_Sloc (Name (Node));
Sprint_Opt_Paren_Comma_List (Parameter_Associations (Node));
Write_Char (';');
when N_Entry_Declaration =>
Write_Indent_Str_Sloc ("entry ");
Write_Id (Defining_Identifier (Node));
if Present (Discrete_Subtype_Definition (Node)) then
Write_Str_With_Col_Check (" (");
Sprint_Node (Discrete_Subtype_Definition (Node));
Write_Char (')');
end if;
Write_Param_Specs (Node);
Write_Char (';');
when N_Entry_Index_Specification =>
Write_Str_With_Col_Check_Sloc ("for ");
Write_Id (Defining_Identifier (Node));
Write_Str_With_Col_Check (" in ");
Sprint_Node (Discrete_Subtype_Definition (Node));
when N_Enumeration_Representation_Clause =>
Write_Indent_Str_Sloc ("for ");
Write_Id (Identifier (Node));
Write_Str_With_Col_Check (" use ");
Sprint_Node (Array_Aggregate (Node));
Write_Char (';');
when N_Enumeration_Type_Definition =>
Set_Debug_Sloc;
-- Skip attempt to print Literals field if it's not there and
-- we are in package Standard (case of Character, which is
-- handled specially (without an explicit literals list).
if Sloc (Node) > Standard_Location
or else Present (Literals (Node))
then
Sprint_Paren_Comma_List (Literals (Node));
end if;
when N_Error =>
Write_Str_With_Col_Check_Sloc ("<error>");
when N_Exception_Declaration =>
if Write_Indent_Identifiers (Node) then
Write_Str_With_Col_Check (" : ");
Write_Str_Sloc ("exception;");
end if;
when N_Exception_Handler =>
Write_Indent_Str_Sloc ("when ");
if Present (Choice_Parameter (Node)) then
Sprint_Node (Choice_Parameter (Node));
Write_Str (" : ");
end if;
Sprint_Bar_List (Exception_Choices (Node));
Write_Str (" => ");
Sprint_Indented_List (Statements (Node));
when N_Exception_Renaming_Declaration =>
Write_Indent;
Set_Debug_Sloc;
Sprint_Node (Defining_Identifier (Node));
Write_Str_With_Col_Check (" : exception renames ");
Sprint_Node (Name (Node));
Write_Char (';');
when N_Exit_Statement =>
Write_Indent_Str_Sloc ("exit");
Sprint_Opt_Node (Name (Node));
if Present (Condition (Node)) then
Write_Str_With_Col_Check (" when ");
Sprint_Node (Condition (Node));
end if;
Write_Char (';');
when N_Explicit_Dereference =>
Sprint_Node (Prefix (Node));
Write_Char ('.');
Write_Str_Sloc ("all");
when N_Extension_Aggregate =>
Write_Str_With_Col_Check_Sloc ("(");
Sprint_Node (Ancestor_Part (Node));
Write_Str_With_Col_Check (" with ");
if Null_Record_Present (Node) then
Write_Str_With_Col_Check ("null record");
else
if Present (Expressions (Node)) then
Sprint_Comma_List (Expressions (Node));
if Present (Component_Associations (Node)) then
Write_Str (", ");
end if;
end if;
if Present (Component_Associations (Node)) then
Sprint_Comma_List (Component_Associations (Node));
end if;
end if;
Write_Char (')');
when N_Floating_Point_Definition =>
Write_Str_With_Col_Check_Sloc ("digits ");
Sprint_Node (Digits_Expression (Node));
Sprint_Opt_Node (Real_Range_Specification (Node));
when N_Formal_Decimal_Fixed_Point_Definition =>
Write_Str_With_Col_Check_Sloc ("delta <> digits <>");
when N_Formal_Derived_Type_Definition =>
Write_Str_With_Col_Check_Sloc ("new ");
Sprint_Node (Subtype_Mark (Node));
if Private_Present (Node) then
Write_Str_With_Col_Check (" with private");
end if;
when N_Formal_Discrete_Type_Definition =>
Write_Str_With_Col_Check_Sloc ("<>");
when N_Formal_Floating_Point_Definition =>
Write_Str_With_Col_Check_Sloc ("digits <>");
when N_Formal_Modular_Type_Definition =>
Write_Str_With_Col_Check_Sloc ("mod <>");
when N_Formal_Object_Declaration =>
Set_Debug_Sloc;
if Write_Indent_Identifiers (Node) then
Write_Str (" : ");
if In_Present (Node) then
Write_Str_With_Col_Check ("in ");
end if;
if Out_Present (Node) then
Write_Str_With_Col_Check ("out ");
end if;
Sprint_Node (Subtype_Mark (Node));
if Present (Expression (Node)) then
Write_Str (" := ");
Sprint_Node (Expression (Node));
end if;
Write_Char (';');
end if;
when N_Formal_Ordinary_Fixed_Point_Definition =>
Write_Str_With_Col_Check_Sloc ("delta <>");
when N_Formal_Package_Declaration =>
Write_Indent_Str_Sloc ("with package ");
Write_Id (Defining_Identifier (Node));
Write_Str_With_Col_Check (" is new ");
Sprint_Node (Name (Node));
Write_Str_With_Col_Check (" (<>);");
when N_Formal_Private_Type_Definition =>
if Abstract_Present (Node) then
Write_Str_With_Col_Check ("abstract ");
end if;
if Tagged_Present (Node) then
Write_Str_With_Col_Check ("tagged ");
end if;
if Limited_Present (Node) then
Write_Str_With_Col_Check ("limited ");
end if;
Write_Str_With_Col_Check_Sloc ("private");
when N_Formal_Signed_Integer_Type_Definition =>
Write_Str_With_Col_Check_Sloc ("range <>");
when N_Formal_Subprogram_Declaration =>
Write_Indent_Str_Sloc ("with ");
Sprint_Node (Specification (Node));
if Box_Present (Node) then
Write_Str_With_Col_Check (" is <>");
elsif Present (Default_Name (Node)) then
Write_Str_With_Col_Check (" is ");
Sprint_Node (Default_Name (Node));
end if;
Write_Char (';');
when N_Formal_Type_Declaration =>
Write_Indent_Str_Sloc ("type ");
Write_Id (Defining_Identifier (Node));
if Present (Discriminant_Specifications (Node)) then
Write_Discr_Specs (Node);
elsif Unknown_Discriminants_Present (Node) then
Write_Str_With_Col_Check ("(<>)");
end if;
Write_Str_With_Col_Check (" is ");
Sprint_Node (Formal_Type_Definition (Node));
Write_Char (';');
when N_Free_Statement =>
Write_Indent_Str_Sloc ("free ");
Sprint_Node (Expression (Node));
Write_Char (';');
when N_Freeze_Entity =>
if Dump_Original_Only then
null;
elsif Present (Actions (Node)) or else Dump_Freeze_Null then
Write_Indent;
Write_Rewrite_Str ("<<<");
Write_Str_With_Col_Check_Sloc ("freeze ");
Write_Id (Entity (Node));
Write_Str (" [");
if No (Actions (Node)) then
Write_Char (']');
else
Freeze_Indent := Freeze_Indent + 1;
Sprint_Indented_List (Actions (Node));
Freeze_Indent := Freeze_Indent - 1;
Write_Indent_Str ("]");
end if;
Write_Rewrite_Str (">>>");
end if;
when N_Full_Type_Declaration =>
Write_Indent_Str_Sloc ("type ");
Write_Id (Defining_Identifier (Node));
Write_Discr_Specs (Node);
Write_Str_With_Col_Check (" is ");
Sprint_Node (Type_Definition (Node));
Write_Char (';');
when N_Function_Call =>
Set_Debug_Sloc;
Sprint_Node (Name (Node));
Sprint_Opt_Paren_Comma_List (Parameter_Associations (Node));
when N_Function_Instantiation =>
Write_Indent_Str_Sloc ("function ");
Sprint_Node (Defining_Unit_Name (Node));
Write_Str_With_Col_Check (" is new ");
Sprint_Node (Name (Node));
Sprint_Opt_Paren_Comma_List (Generic_Associations (Node));
Write_Char (';');
when N_Function_Specification =>
Write_Str_With_Col_Check_Sloc ("function ");
Sprint_Node (Defining_Unit_Name (Node));
Write_Param_Specs (Node);
Write_Str_With_Col_Check (" return ");
Sprint_Node (Subtype_Mark (Node));
when N_Generic_Association =>
Set_Debug_Sloc;
if Present (Selector_Name (Node)) then
Sprint_Node (Selector_Name (Node));
Write_Str (" => ");
end if;
Sprint_Node (Explicit_Generic_Actual_Parameter (Node));
when N_Generic_Function_Renaming_Declaration =>
Write_Indent_Str_Sloc ("generic function ");
Sprint_Node (Defining_Unit_Name (Node));
Write_Str_With_Col_Check (" renames ");
Sprint_Node (Name (Node));
Write_Char (';');
when N_Generic_Package_Declaration =>
Write_Indent;
Write_Indent_Str_Sloc ("generic ");
Sprint_Indented_List (Generic_Formal_Declarations (Node));
Write_Indent;
Sprint_Node (Specification (Node));
Write_Char (';');
when N_Generic_Package_Renaming_Declaration =>
Write_Indent_Str_Sloc ("generic package ");
Sprint_Node (Defining_Unit_Name (Node));
Write_Str_With_Col_Check (" renames ");
Sprint_Node (Name (Node));
Write_Char (';');
when N_Generic_Procedure_Renaming_Declaration =>
Write_Indent_Str_Sloc ("generic procedure ");
Sprint_Node (Defining_Unit_Name (Node));
Write_Str_With_Col_Check (" renames ");
Sprint_Node (Name (Node));
Write_Char (';');
when N_Generic_Subprogram_Declaration =>
Write_Indent;
Write_Indent_Str_Sloc ("generic ");
Sprint_Indented_List (Generic_Formal_Declarations (Node));
Write_Indent;
Sprint_Node (Specification (Node));
Write_Char (';');
when N_Goto_Statement =>
Write_Indent_Str_Sloc ("goto ");
Sprint_Node (Name (Node));
Write_Char (';');
if Nkind (Next (Node)) = N_Label then
Write_Indent;
end if;
when N_Handled_Sequence_Of_Statements =>
Set_Debug_Sloc;
Sprint_Indented_List (Statements (Node));
if Present (Exception_Handlers (Node)) then
Write_Indent_Str ("exception");
Indent_Begin;
Sprint_Node_List (Exception_Handlers (Node));
Indent_End;
end if;
if Present (At_End_Proc (Node)) then
Write_Indent_Str ("at end");
Indent_Begin;
Write_Indent;
Sprint_Node (At_End_Proc (Node));
Write_Char (';');
Indent_End;
end if;
when N_Identifier =>
Set_Debug_Sloc;
Write_Id (Node);
when N_If_Statement =>
Write_Indent_Str_Sloc ("if ");
Sprint_Node (Condition (Node));
Write_Str_With_Col_Check (" then");
Sprint_Indented_List (Then_Statements (Node));
Sprint_Opt_Node_List (Elsif_Parts (Node));
if Present (Else_Statements (Node)) then
Write_Indent_Str ("else");
Sprint_Indented_List (Else_Statements (Node));
end if;
Write_Indent_Str ("end if;");
when N_Implicit_Label_Declaration =>
if not Dump_Original_Only then
Write_Indent;
Write_Rewrite_Str ("<<<");
Set_Debug_Sloc;
Write_Id (Defining_Identifier (Node));
Write_Str (" : ");
Write_Str_With_Col_Check ("label");
Write_Rewrite_Str (">>>");
end if;
when N_In =>
Sprint_Left_Opnd (Node);
Write_Str_Sloc (" in ");
Sprint_Right_Opnd (Node);
when N_Incomplete_Type_Declaration =>
Write_Indent_Str_Sloc ("type ");
Write_Id (Defining_Identifier (Node));
if Present (Discriminant_Specifications (Node)) then
Write_Discr_Specs (Node);
elsif Unknown_Discriminants_Present (Node) then
Write_Str_With_Col_Check ("(<>)");
end if;
Write_Char (';');
when N_Index_Or_Discriminant_Constraint =>
Set_Debug_Sloc;
Sprint_Paren_Comma_List (Constraints (Node));
when N_Indexed_Component =>
Sprint_Node_Sloc (Prefix (Node));
Sprint_Opt_Paren_Comma_List (Expressions (Node));
when N_Integer_Literal =>
if Print_In_Hex (Node) then
Write_Uint_With_Col_Check_Sloc (Intval (Node), Hex);
else
Write_Uint_With_Col_Check_Sloc (Intval (Node), Auto);
end if;
when N_Iteration_Scheme =>
if Present (Condition (Node)) then
Write_Str_With_Col_Check_Sloc ("while ");
Sprint_Node (Condition (Node));
else
Write_Str_With_Col_Check_Sloc ("for ");
Sprint_Node (Loop_Parameter_Specification (Node));
end if;
Write_Char (' ');
when N_Itype_Reference =>
Write_Indent_Str_Sloc ("reference ");
Write_Id (Itype (Node));
when N_Label =>
Write_Indent_Str_Sloc ("<<");
Write_Id (Identifier (Node));
Write_Str (">>");
when N_Loop_Parameter_Specification =>
Set_Debug_Sloc;
Write_Id (Defining_Identifier (Node));
Write_Str_With_Col_Check (" in ");
if Reverse_Present (Node) then
Write_Str_With_Col_Check ("reverse ");
end if;
Sprint_Node (Discrete_Subtype_Definition (Node));
when N_Loop_Statement =>
Write_Indent;
if Present (Identifier (Node))
and then (not Has_Created_Identifier (Node)
or else not Dump_Original_Only)
then
Write_Rewrite_Str ("<<<");
Write_Id (Identifier (Node));
Write_Str (" : ");
Write_Rewrite_Str (">>>");
Sprint_Node (Iteration_Scheme (Node));
Write_Str_With_Col_Check_Sloc ("loop");
Sprint_Indented_List (Statements (Node));
Write_Indent_Str ("end loop ");
Write_Rewrite_Str ("<<<");
Write_Id (Identifier (Node));
Write_Rewrite_Str (">>>");
Write_Char (';');
else
Sprint_Node (Iteration_Scheme (Node));
Write_Str_With_Col_Check_Sloc ("loop");
Sprint_Indented_List (Statements (Node));
Write_Indent_Str ("end loop;");
end if;
when N_Mod_Clause =>
Sprint_Node_List (Pragmas_Before (Node));
Write_Str_With_Col_Check_Sloc ("at mod ");
Sprint_Node (Expression (Node));
when N_Modular_Type_Definition =>
Write_Str_With_Col_Check_Sloc ("mod ");
Sprint_Node (Expression (Node));
when N_Not_In =>
Sprint_Left_Opnd (Node);
Write_Str_Sloc (" not in ");
Sprint_Right_Opnd (Node);
when N_Null =>
Write_Str_With_Col_Check_Sloc ("null");
when N_Null_Statement =>
if Comes_From_Source (Node)
or else Dump_Freeze_Null
or else not Is_List_Member (Node)
or else (No (Prev (Node)) and then No (Next (Node)))
then
Write_Indent_Str_Sloc ("null;");
end if;
when N_Number_Declaration =>
Set_Debug_Sloc;
if Write_Indent_Identifiers (Node) then
Write_Str_With_Col_Check (" : constant ");
Write_Str (" := ");
Sprint_Node (Expression (Node));
Write_Char (';');
end if;
when N_Object_Declaration =>
-- Put extra blank line before and after if this is a handler
-- record or a subprogram descriptor.
declare
Typ : constant Entity_Id := Etype (Defining_Identifier (Node));
Exc : constant Boolean :=
Is_RTE (Typ, RE_Handler_Record)
or else
Is_RTE (Typ, RE_Subprogram_Descriptor);
begin
if Exc then
Write_Indent;
end if;
Set_Debug_Sloc;
if Write_Indent_Identifiers (Node) then
Write_Str (" : ");
if Aliased_Present (Node) then
Write_Str_With_Col_Check ("aliased ");
end if;
if Constant_Present (Node) then
Write_Str_With_Col_Check ("constant ");
end if;
Sprint_Node (Object_Definition (Node));
if Present (Expression (Node)) then
Write_Str (" := ");
Sprint_Node (Expression (Node));
end if;
Write_Char (';');
end if;
if Exc then
Write_Indent;
end if;
end;
when N_Object_Renaming_Declaration =>
Write_Indent;
Set_Debug_Sloc;
Sprint_Node (Defining_Identifier (Node));
Write_Str (" : ");
Sprint_Node (Subtype_Mark (Node));
Write_Str_With_Col_Check (" renames ");
Sprint_Node (Name (Node));
Write_Char (';');
when N_Op_Abs =>
Write_Operator (Node, "abs ");
Sprint_Right_Opnd (Node);
when N_Op_Add =>
Sprint_Left_Opnd (Node);
Write_Operator (Node, " + ");
Sprint_Right_Opnd (Node);
when N_Op_And =>
Sprint_Left_Opnd (Node);
Write_Operator (Node, " and ");
Sprint_Right_Opnd (Node);
when N_Op_Concat =>
Sprint_Left_Opnd (Node);
Write_Operator (Node, " & ");
Sprint_Right_Opnd (Node);
when N_Op_Divide =>
Sprint_Left_Opnd (Node);
Write_Char (' ');
Process_TFAI_RR_Flags (Node);
Write_Operator (Node, "/ ");
Sprint_Right_Opnd (Node);
when N_Op_Eq =>
Sprint_Left_Opnd (Node);
Write_Operator (Node, " = ");
Sprint_Right_Opnd (Node);
when N_Op_Expon =>
Sprint_Left_Opnd (Node);
Write_Operator (Node, " ** ");
Sprint_Right_Opnd (Node);
when N_Op_Ge =>
Sprint_Left_Opnd (Node);
Write_Operator (Node, " >= ");
Sprint_Right_Opnd (Node);
when N_Op_Gt =>
Sprint_Left_Opnd (Node);
Write_Operator (Node, " > ");
Sprint_Right_Opnd (Node);
when N_Op_Le =>
Sprint_Left_Opnd (Node);
Write_Operator (Node, " <= ");
Sprint_Right_Opnd (Node);
when N_Op_Lt =>
Sprint_Left_Opnd (Node);
Write_Operator (Node, " < ");
Sprint_Right_Opnd (Node);
when N_Op_Minus =>
Write_Operator (Node, "-");
Sprint_Right_Opnd (Node);
when N_Op_Mod =>
Sprint_Left_Opnd (Node);
if Treat_Fixed_As_Integer (Node) then
Write_Str (" #");
end if;
Write_Operator (Node, " mod ");
Sprint_Right_Opnd (Node);
when N_Op_Multiply =>
Sprint_Left_Opnd (Node);
Write_Char (' ');
Process_TFAI_RR_Flags (Node);
Write_Operator (Node, "* ");
Sprint_Right_Opnd (Node);
when N_Op_Ne =>
Sprint_Left_Opnd (Node);
Write_Operator (Node, " /= ");
Sprint_Right_Opnd (Node);
when N_Op_Not =>
Write_Operator (Node, "not ");
Sprint_Right_Opnd (Node);
when N_Op_Or =>
Sprint_Left_Opnd (Node);
Write_Operator (Node, " or ");
Sprint_Right_Opnd (Node);
when N_Op_Plus =>
Write_Operator (Node, "+");
Sprint_Right_Opnd (Node);
when N_Op_Rem =>
Sprint_Left_Opnd (Node);
if Treat_Fixed_As_Integer (Node) then
Write_Str (" #");
end if;
Write_Operator (Node, " rem ");
Sprint_Right_Opnd (Node);
when N_Op_Shift =>
Set_Debug_Sloc;
Write_Id (Node);
Write_Char ('!');
Write_Str_With_Col_Check ("(");
Sprint_Node (Left_Opnd (Node));
Write_Str (", ");
Sprint_Node (Right_Opnd (Node));
Write_Char (')');
when N_Op_Subtract =>
Sprint_Left_Opnd (Node);
Write_Operator (Node, " - ");
Sprint_Right_Opnd (Node);
when N_Op_Xor =>
Sprint_Left_Opnd (Node);
Write_Operator (Node, " xor ");
Sprint_Right_Opnd (Node);
when N_Operator_Symbol =>
Write_Name_With_Col_Check_Sloc (Chars (Node));
when N_Ordinary_Fixed_Point_Definition =>
Write_Str_With_Col_Check_Sloc ("delta ");
Sprint_Node (Delta_Expression (Node));
Sprint_Opt_Node (Real_Range_Specification (Node));
when N_Or_Else =>
Sprint_Left_Opnd (Node);
Write_Str_Sloc (" or else ");
Sprint_Right_Opnd (Node);
when N_Others_Choice =>
if All_Others (Node) then
Write_Str_With_Col_Check ("all ");
end if;
Write_Str_With_Col_Check_Sloc ("others");
when N_Package_Body =>
Write_Indent;
Write_Indent_Str_Sloc ("package body ");
Sprint_Node (Defining_Unit_Name (Node));
Write_Str (" is");
Sprint_Indented_List (Declarations (Node));
if Present (Handled_Statement_Sequence (Node)) then
Write_Indent_Str ("begin");
Sprint_Node (Handled_Statement_Sequence (Node));
end if;
Write_Indent_Str ("end ");
Sprint_Node (Defining_Unit_Name (Node));
Write_Char (';');
when N_Package_Body_Stub =>
Write_Indent_Str_Sloc ("package body ");
Sprint_Node (Defining_Identifier (Node));
Write_Str_With_Col_Check (" is separate;");
when N_Package_Declaration =>
Write_Indent;
Write_Indent;
Sprint_Node_Sloc (Specification (Node));
Write_Char (';');
when N_Package_Instantiation =>
Write_Indent;
Write_Indent_Str_Sloc ("package ");
Sprint_Node (Defining_Unit_Name (Node));
Write_Str (" is new ");
Sprint_Node (Name (Node));
Sprint_Opt_Paren_Comma_List (Generic_Associations (Node));
Write_Char (';');
when N_Package_Renaming_Declaration =>
Write_Indent_Str_Sloc ("package ");
Sprint_Node (Defining_Unit_Name (Node));
Write_Str_With_Col_Check (" renames ");
Sprint_Node (Name (Node));
Write_Char (';');
when N_Package_Specification =>
Write_Str_With_Col_Check_Sloc ("package ");
Sprint_Node (Defining_Unit_Name (Node));
Write_Str (" is");
Sprint_Indented_List (Visible_Declarations (Node));
if Present (Private_Declarations (Node)) then
Write_Indent_Str ("private");
Sprint_Indented_List (Private_Declarations (Node));
end if;
Write_Indent_Str ("end ");
Sprint_Node (Defining_Unit_Name (Node));
when N_Parameter_Association =>
Sprint_Node_Sloc (Selector_Name (Node));
Write_Str (" => ");
Sprint_Node (Explicit_Actual_Parameter (Node));
when N_Parameter_Specification =>
Set_Debug_Sloc;
if Write_Identifiers (Node) then
Write_Str (" : ");
if In_Present (Node) then
Write_Str_With_Col_Check ("in ");
end if;
if Out_Present (Node) then
Write_Str_With_Col_Check ("out ");
end if;
Sprint_Node (Parameter_Type (Node));
if Present (Expression (Node)) then
Write_Str (" := ");
Sprint_Node (Expression (Node));
end if;
else
Write_Str (", ");
end if;
when N_Pragma =>
Write_Indent_Str_Sloc ("pragma ");
Write_Name_With_Col_Check (Chars (Node));
if Present (Pragma_Argument_Associations (Node)) then
Sprint_Opt_Paren_Comma_List
(Pragma_Argument_Associations (Node));
end if;
Write_Char (';');
when N_Pragma_Argument_Association =>
Set_Debug_Sloc;
if Chars (Node) /= No_Name then
Write_Name_With_Col_Check (Chars (Node));
Write_Str (" => ");
end if;
Sprint_Node (Expression (Node));
when N_Private_Type_Declaration =>
Write_Indent_Str_Sloc ("type ");
Write_Id (Defining_Identifier (Node));
if Present (Discriminant_Specifications (Node)) then
Write_Discr_Specs (Node);
elsif Unknown_Discriminants_Present (Node) then
Write_Str_With_Col_Check ("(<>)");
end if;
Write_Str (" is ");
if Tagged_Present (Node) then
Write_Str_With_Col_Check ("tagged ");
end if;
if Limited_Present (Node) then
Write_Str_With_Col_Check ("limited ");
end if;
Write_Str_With_Col_Check ("private;");
when N_Private_Extension_Declaration =>
Write_Indent_Str_Sloc ("type ");
Write_Id (Defining_Identifier (Node));
if Present (Discriminant_Specifications (Node)) then
Write_Discr_Specs (Node);
elsif Unknown_Discriminants_Present (Node) then
Write_Str_With_Col_Check ("(<>)");
end if;
Write_Str_With_Col_Check (" is new ");
Sprint_Node (Subtype_Indication (Node));
Write_Str_With_Col_Check (" with private;");
when N_Procedure_Call_Statement =>
Write_Indent;
Set_Debug_Sloc;
Sprint_Node (Name (Node));
Sprint_Opt_Paren_Comma_List (Parameter_Associations (Node));
Write_Char (';');
when N_Procedure_Instantiation =>
Write_Indent_Str_Sloc ("procedure ");
Sprint_Node (Defining_Unit_Name (Node));
Write_Str_With_Col_Check (" is new ");
Sprint_Node (Name (Node));
Sprint_Opt_Paren_Comma_List (Generic_Associations (Node));
Write_Char (';');
when N_Procedure_Specification =>
Write_Str_With_Col_Check_Sloc ("procedure ");
Sprint_Node (Defining_Unit_Name (Node));
Write_Param_Specs (Node);
when N_Protected_Body =>
Write_Indent_Str_Sloc ("protected body ");
Write_Id (Defining_Identifier (Node));
Write_Str (" is");
Sprint_Indented_List (Declarations (Node));
Write_Indent_Str ("end ");
Write_Id (Defining_Identifier (Node));
Write_Char (';');
when N_Protected_Body_Stub =>
Write_Indent_Str_Sloc ("protected body ");
Write_Id (Defining_Identifier (Node));
Write_Str_With_Col_Check (" is separate;");
when N_Protected_Definition =>
Set_Debug_Sloc;
Sprint_Indented_List (Visible_Declarations (Node));
if Present (Private_Declarations (Node)) then
Write_Indent_Str ("private");
Sprint_Indented_List (Private_Declarations (Node));
end if;
Write_Indent_Str ("end ");
when N_Protected_Type_Declaration =>
Write_Indent_Str_Sloc ("protected type ");
Write_Id (Defining_Identifier (Node));
Write_Discr_Specs (Node);
Write_Str (" is");
Sprint_Node (Protected_Definition (Node));
Write_Id (Defining_Identifier (Node));
Write_Char (';');
when N_Qualified_Expression =>
Sprint_Node (Subtype_Mark (Node));
Write_Char_Sloc (''');
-- Print expression, make sure we have at least one level of
-- parentheses around the expression. For cases of qualified
-- expressions in the source, this is always the case, but
-- for generated qualifications, there may be no explicit
-- parentheses present.
if Paren_Count (Expression (Node)) /= 0 then
Sprint_Node (Expression (Node));
else
Write_Char ('(');
Sprint_Node (Expression (Node));
Write_Char (')');
end if;
when N_Raise_Constraint_Error =>
-- This node can be used either as a subexpression or as a
-- statement form. The following test is a reasonably reliable
-- way to distinguish the two cases.
if Is_List_Member (Node)
and then Nkind (Parent (Node)) not in N_Subexpr
then
Write_Indent;
end if;
Write_Str_With_Col_Check_Sloc ("[constraint_error");
Write_Condition_And_Reason (Node);
when N_Raise_Program_Error =>
-- This node can be used either as a subexpression or as a
-- statement form. The following test is a reasonably reliable
-- way to distinguish the two cases.
if Is_List_Member (Node)
and then Nkind (Parent (Node)) not in N_Subexpr
then
Write_Indent;
end if;
Write_Str_With_Col_Check_Sloc ("[program_error");
Write_Condition_And_Reason (Node);
when N_Raise_Storage_Error =>
-- This node can be used either as a subexpression or as a
-- statement form. The following test is a reasonably reliable
-- way to distinguish the two cases.
if Is_List_Member (Node)
and then Nkind (Parent (Node)) not in N_Subexpr
then
Write_Indent;
end if;
Write_Str_With_Col_Check_Sloc ("[storage_error");
Write_Condition_And_Reason (Node);
when N_Raise_Statement =>
Write_Indent_Str_Sloc ("raise ");
Sprint_Node (Name (Node));
Write_Char (';');
when N_Range =>
Sprint_Node (Low_Bound (Node));
Write_Str_Sloc (" .. ");
Sprint_Node (High_Bound (Node));
when N_Range_Constraint =>
Write_Str_With_Col_Check_Sloc ("range ");
Sprint_Node (Range_Expression (Node));
when N_Real_Literal =>
Write_Ureal_With_Col_Check_Sloc (Realval (Node));
when N_Real_Range_Specification =>
Write_Str_With_Col_Check_Sloc ("range ");
Sprint_Node (Low_Bound (Node));
Write_Str (" .. ");
Sprint_Node (High_Bound (Node));
when N_Record_Definition =>
if Abstract_Present (Node) then
Write_Str_With_Col_Check ("abstract ");
end if;
if Tagged_Present (Node) then
Write_Str_With_Col_Check ("tagged ");
end if;
if Limited_Present (Node) then
Write_Str_With_Col_Check ("limited ");
end if;
if Null_Present (Node) then
Write_Str_With_Col_Check_Sloc ("null record");
else
Write_Str_With_Col_Check_Sloc ("record");
Sprint_Node (Component_List (Node));
Write_Indent_Str ("end record");
end if;
when N_Record_Representation_Clause =>
Write_Indent_Str_Sloc ("for ");
Sprint_Node (Identifier (Node));
Write_Str_With_Col_Check (" use record ");
if Present (Mod_Clause (Node)) then
Sprint_Node (Mod_Clause (Node));
end if;
Sprint_Indented_List (Component_Clauses (Node));
Write_Indent_Str ("end record;");
when N_Reference =>
Sprint_Node (Prefix (Node));
Write_Str_With_Col_Check_Sloc ("'reference");
when N_Requeue_Statement =>
Write_Indent_Str_Sloc ("requeue ");
Sprint_Node (Name (Node));
if Abort_Present (Node) then
Write_Str_With_Col_Check (" with abort");
end if;
Write_Char (';');
when N_Return_Statement =>
if Present (Expression (Node)) then
Write_Indent_Str_Sloc ("return ");
Sprint_Node (Expression (Node));
Write_Char (';');
else
Write_Indent_Str_Sloc ("return;");
end if;
when N_Selective_Accept =>
Write_Indent_Str_Sloc ("select");
declare
Alt_Node : Node_Id;
begin
Alt_Node := First (Select_Alternatives (Node));
loop
Indent_Begin;
Sprint_Node (Alt_Node);
Indent_End;
Next (Alt_Node);
exit when No (Alt_Node);
Write_Indent_Str ("or");
end loop;
end;
if Present (Else_Statements (Node)) then
Write_Indent_Str ("else");
Sprint_Indented_List (Else_Statements (Node));
end if;
Write_Indent_Str ("end select;");
when N_Signed_Integer_Type_Definition =>
Write_Str_With_Col_Check_Sloc ("range ");
Sprint_Node (Low_Bound (Node));
Write_Str (" .. ");
Sprint_Node (High_Bound (Node));
when N_Single_Protected_Declaration =>
Write_Indent_Str_Sloc ("protected ");
Write_Id (Defining_Identifier (Node));
Write_Str (" is");
Sprint_Node (Protected_Definition (Node));
Write_Id (Defining_Identifier (Node));
Write_Char (';');
when N_Single_Task_Declaration =>
Write_Indent_Str_Sloc ("task ");
Write_Id (Defining_Identifier (Node));
if Present (Task_Definition (Node)) then
Write_Str (" is");
Sprint_Node (Task_Definition (Node));
Write_Id (Defining_Identifier (Node));
end if;
Write_Char (';');
when N_Selected_Component | N_Expanded_Name =>
Sprint_Node (Prefix (Node));
Write_Char_Sloc ('.');
Sprint_Node (Selector_Name (Node));
when N_Slice =>
Set_Debug_Sloc;
Sprint_Node (Prefix (Node));
Write_Str_With_Col_Check (" (");
Sprint_Node (Discrete_Range (Node));
Write_Char (')');
when N_String_Literal =>
if String_Length (Strval (Node)) + Column > 75 then
Write_Indent_Str (" ");
end if;
Set_Debug_Sloc;
Write_String_Table_Entry (Strval (Node));
when N_Subprogram_Body =>
if Freeze_Indent = 0 then
Write_Indent;
end if;
Write_Indent;
Sprint_Node_Sloc (Specification (Node));
Write_Str (" is");
Sprint_Indented_List (Declarations (Node));
Write_Indent_Str ("begin");
Sprint_Node (Handled_Statement_Sequence (Node));
Write_Indent_Str ("end ");
Sprint_Node (Defining_Unit_Name (Specification (Node)));
Write_Char (';');
if Is_List_Member (Node)
and then Present (Next (Node))
and then Nkind (Next (Node)) /= N_Subprogram_Body
then
Write_Indent;
end if;
when N_Subprogram_Body_Stub =>
Write_Indent;
Sprint_Node_Sloc (Specification (Node));
Write_Str_With_Col_Check (" is separate;");
when N_Subprogram_Declaration =>
Write_Indent;
Sprint_Node_Sloc (Specification (Node));
Write_Char (';');
when N_Subprogram_Info =>
Sprint_Node (Identifier (Node));
Write_Str_With_Col_Check_Sloc ("'subprogram_info");
when N_Subprogram_Renaming_Declaration =>
Write_Indent;
Sprint_Node (Specification (Node));
Write_Str_With_Col_Check_Sloc (" renames ");
Sprint_Node (Name (Node));
Write_Char (';');
when N_Subtype_Declaration =>
Write_Indent_Str_Sloc ("subtype ");
Write_Id (Defining_Identifier (Node));
Write_Str (" is ");
Sprint_Node (Subtype_Indication (Node));
Write_Char (';');
when N_Subtype_Indication =>
Sprint_Node_Sloc (Subtype_Mark (Node));
Write_Char (' ');
Sprint_Node (Constraint (Node));
when N_Subunit =>
Write_Indent_Str_Sloc ("separate (");
Sprint_Node (Name (Node));
Write_Char (')');
Write_Eol;
Sprint_Node (Proper_Body (Node));
when N_Task_Body =>
Write_Indent_Str_Sloc ("task body ");
Write_Id (Defining_Identifier (Node));
Write_Str (" is");
Sprint_Indented_List (Declarations (Node));
Write_Indent_Str ("begin");
Sprint_Node (Handled_Statement_Sequence (Node));
Write_Indent_Str ("end ");
Write_Id (Defining_Identifier (Node));
Write_Char (';');
when N_Task_Body_Stub =>
Write_Indent_Str_Sloc ("task body ");
Write_Id (Defining_Identifier (Node));
Write_Str_With_Col_Check (" is separate;");
when N_Task_Definition =>
Set_Debug_Sloc;
Sprint_Indented_List (Visible_Declarations (Node));
if Present (Private_Declarations (Node)) then
Write_Indent_Str ("private");
Sprint_Indented_List (Private_Declarations (Node));
end if;
Write_Indent_Str ("end ");
when N_Task_Type_Declaration =>
Write_Indent_Str_Sloc ("task type ");
Write_Id (Defining_Identifier (Node));
Write_Discr_Specs (Node);
if Present (Task_Definition (Node)) then
Write_Str (" is");
Sprint_Node (Task_Definition (Node));
Write_Id (Defining_Identifier (Node));
end if;
Write_Char (';');
when N_Terminate_Alternative =>
Sprint_Node_List (Pragmas_Before (Node));
Write_Indent;
if Present (Condition (Node)) then
Write_Str_With_Col_Check ("when ");
Sprint_Node (Condition (Node));
Write_Str (" => ");
end if;
Write_Str_With_Col_Check_Sloc ("terminate;");
Sprint_Node_List (Pragmas_After (Node));
when N_Timed_Entry_Call =>
Write_Indent_Str_Sloc ("select");
Indent_Begin;
Sprint_Node (Entry_Call_Alternative (Node));
Indent_End;
Write_Indent_Str ("or");
Indent_Begin;
Sprint_Node (Delay_Alternative (Node));
Indent_End;
Write_Indent_Str ("end select;");
when N_Triggering_Alternative =>
Sprint_Node_List (Pragmas_Before (Node));
Sprint_Node_Sloc (Triggering_Statement (Node));
Sprint_Node_List (Statements (Node));
when N_Type_Conversion =>
Set_Debug_Sloc;
Sprint_Node (Subtype_Mark (Node));
Col_Check (4);
if Conversion_OK (Node) then
Write_Char ('?');
end if;
if Float_Truncate (Node) then
Write_Char ('^');
end if;
if Rounded_Result (Node) then
Write_Char ('@');
end if;
Write_Char ('(');
Sprint_Node (Expression (Node));
Write_Char (')');
when N_Unchecked_Expression =>
Col_Check (10);
Write_Str ("`(");
Sprint_Node_Sloc (Expression (Node));
Write_Char (')');
when N_Unchecked_Type_Conversion =>
Sprint_Node (Subtype_Mark (Node));
Write_Char ('!');
Write_Str_With_Col_Check ("(");
Sprint_Node_Sloc (Expression (Node));
Write_Char (')');
when N_Unconstrained_Array_Definition =>
Write_Str_With_Col_Check_Sloc ("array (");
declare
Node1 : Node_Id;
begin
Node1 := First (Subtype_Marks (Node));
loop
Sprint_Node (Node1);
Write_Str_With_Col_Check (" range <>");
Next (Node1);
exit when Node1 = Empty;
Write_Str (", ");
end loop;
end;
Write_Str (") of ");
if Aliased_Present (Node) then
Write_Str_With_Col_Check ("aliased ");
end if;
Sprint_Node (Subtype_Indication (Node));
when N_Unused_At_Start | N_Unused_At_End =>
Write_Indent_Str ("***** Error, unused node encountered *****");
Write_Eol;
when N_Use_Package_Clause =>
Write_Indent_Str_Sloc ("use ");
Sprint_Comma_List (Names (Node));
Write_Char (';');
when N_Use_Type_Clause =>
Write_Indent_Str_Sloc ("use type ");
Sprint_Comma_List (Subtype_Marks (Node));
Write_Char (';');
when N_Validate_Unchecked_Conversion =>
Write_Indent_Str_Sloc ("validate unchecked_conversion (");
Sprint_Node (Source_Type (Node));
Write_Str (", ");
Sprint_Node (Target_Type (Node));
Write_Str (");");
when N_Variant =>
Write_Indent_Str_Sloc ("when ");
Sprint_Bar_List (Discrete_Choices (Node));
Write_Str (" => ");
Sprint_Node (Component_List (Node));
when N_Variant_Part =>
Indent_Begin;
Write_Indent_Str_Sloc ("case ");
Sprint_Node (Name (Node));
Write_Str (" is ");
Sprint_Indented_List (Variants (Node));
Write_Indent_Str ("end case");
Indent_End;
when N_With_Clause =>
-- Special test, if we are dumping the original tree only,
-- then we want to eliminate the bogus with clauses that
-- correspond to the non-existent children of Text_IO.
if Dump_Original_Only
and then Is_Text_IO_Kludge_Unit (Name (Node))
then
null;
-- Normal case, output the with clause
else
if First_Name (Node) or else not Dump_Original_Only then
Write_Indent_Str ("with ");
else
Write_Str (", ");
end if;
Sprint_Node_Sloc (Name (Node));
if Last_Name (Node) or else not Dump_Original_Only then
Write_Char (';');
end if;
end if;
when N_With_Type_Clause =>
Write_Indent_Str ("with type ");
Sprint_Node_Sloc (Name (Node));
if Tagged_Present (Node) then
Write_Str (" is tagged;");
else
Write_Str (" is access;");
end if;
end case;
if Nkind (Node) in N_Subexpr
and then Do_Range_Check (Node)
then
Write_Str ("}");
end if;
for J in 1 .. Paren_Count (Node) loop
Write_Char (')');
end loop;
pragma Assert (No (Debug_Node));
Debug_Node := Save_Debug_Node;
end Sprint_Node_Actual;
----------------------
-- Sprint_Node_List --
----------------------
procedure Sprint_Node_List (List : List_Id) is
Node : Node_Id;
begin
if Is_Non_Empty_List (List) then
Node := First (List);
loop
Sprint_Node (Node);
Next (Node);
exit when Node = Empty;
end loop;
end if;
end Sprint_Node_List;
----------------------
-- Sprint_Node_Sloc --
----------------------
procedure Sprint_Node_Sloc (Node : Node_Id) is
begin
Sprint_Node (Node);
if Present (Debug_Node) then
Set_Sloc (Debug_Node, Sloc (Node));
Debug_Node := Empty;
end if;
end Sprint_Node_Sloc;
---------------------
-- Sprint_Opt_Node --
---------------------
procedure Sprint_Opt_Node (Node : Node_Id) is
begin
if Present (Node) then
Write_Char (' ');
Sprint_Node (Node);
end if;
end Sprint_Opt_Node;
--------------------------
-- Sprint_Opt_Node_List --
--------------------------
procedure Sprint_Opt_Node_List (List : List_Id) is
begin
if Present (List) then
Sprint_Node_List (List);
end if;
end Sprint_Opt_Node_List;
---------------------------------
-- Sprint_Opt_Paren_Comma_List --
---------------------------------
procedure Sprint_Opt_Paren_Comma_List (List : List_Id) is
begin
if Is_Non_Empty_List (List) then
Write_Char (' ');
Sprint_Paren_Comma_List (List);
end if;
end Sprint_Opt_Paren_Comma_List;
-----------------------------
-- Sprint_Paren_Comma_List --
-----------------------------
procedure Sprint_Paren_Comma_List (List : List_Id) is
N : Node_Id;
Node_Exists : Boolean := False;
begin
if Is_Non_Empty_List (List) then
if Dump_Original_Only then
N := First (List);
while Present (N) loop
if not Is_Rewrite_Insertion (N) then
Node_Exists := True;
exit;
end if;
Next (N);
end loop;
if not Node_Exists then
return;
end if;
end if;
Write_Str_With_Col_Check ("(");
Sprint_Comma_List (List);
Write_Char (')');
end if;
end Sprint_Paren_Comma_List;
----------------------
-- Sprint_Right_Opnd --
----------------------
procedure Sprint_Right_Opnd (N : Node_Id) is
Opnd : constant Node_Id := Right_Opnd (N);
begin
if Paren_Count (Opnd) /= 0
or else Op_Prec (Nkind (Opnd)) > Op_Prec (Nkind (N))
then
Sprint_Node (Opnd);
else
Write_Char ('(');
Sprint_Node (Opnd);
Write_Char (')');
end if;
end Sprint_Right_Opnd;
---------------------
-- Write_Char_Sloc --
---------------------
procedure Write_Char_Sloc (C : Character) is
begin
if Debug_Generated_Code and then C /= ' ' then
Set_Debug_Sloc;
end if;
Write_Char (C);
end Write_Char_Sloc;
--------------------------------
-- Write_Condition_And_Reason --
--------------------------------
procedure Write_Condition_And_Reason (Node : Node_Id) is
Image : constant String := RT_Exception_Code'Image
(RT_Exception_Code'Val
(UI_To_Int (Reason (Node))));
begin
if Present (Condition (Node)) then
Write_Str_With_Col_Check (" when ");
Sprint_Node (Condition (Node));
end if;
Write_Str (" """);
for J in 4 .. Image'Last loop
if Image (J) = '_' then
Write_Char (' ');
else
Write_Char (Fold_Lower (Image (J)));
end if;
end loop;
Write_Str ("""]");
end Write_Condition_And_Reason;
------------------------
-- Write_Discr_Specs --
------------------------
procedure Write_Discr_Specs (N : Node_Id) is
Specs : List_Id;
Spec : Node_Id;
begin
Specs := Discriminant_Specifications (N);
if Present (Specs) then
Write_Str_With_Col_Check (" (");
Spec := First (Specs);
loop
Sprint_Node (Spec);
Next (Spec);
exit when Spec = Empty;
-- Add semicolon, unless we are printing original tree and the
-- next specification is part of a list (but not the first
-- element of that list)
if not Dump_Original_Only or else not Prev_Ids (Spec) then
Write_Str ("; ");
end if;
end loop;
Write_Char (')');
end if;
end Write_Discr_Specs;
-----------------
-- Write_Ekind --
-----------------
procedure Write_Ekind (E : Entity_Id) is
S : constant String := Entity_Kind'Image (Ekind (E));
begin
Name_Len := S'Length;
Name_Buffer (1 .. Name_Len) := S;
Set_Casing (Mixed_Case);
Write_Str_With_Col_Check (Name_Buffer (1 .. Name_Len));
end Write_Ekind;
--------------
-- Write_Id --
--------------
procedure Write_Id (N : Node_Id) is
begin
-- Case of a defining identifier
if Nkind (N) = N_Defining_Identifier then
-- If defining identifier has an interface name (and no
-- address clause), then we output the interface name.
if (Is_Imported (N) or else Is_Exported (N))
and then Present (Interface_Name (N))
and then No (Address_Clause (N))
then
String_To_Name_Buffer (Strval (Interface_Name (N)));
Write_Str_With_Col_Check (Name_Buffer (1 .. Name_Len));
-- If no interface name (or inactive because there was
-- an address clause), then just output the Chars name.
else
Write_Name_With_Col_Check (Chars (N));
end if;
-- Case of selector of an expanded name where the expanded name
-- has an associated entity, output this entity.
elsif Nkind (Parent (N)) = N_Expanded_Name
and then Selector_Name (Parent (N)) = N
and then Present (Entity (Parent (N)))
then
Write_Id (Entity (Parent (N)));
-- For any other kind of node with an associated entity, output it.
elsif Nkind (N) in N_Has_Entity
and then Present (Entity (N))
then
Write_Id (Entity (N));
-- All other cases, we just print the Chars field
else
Write_Name_With_Col_Check (Chars (N));
end if;
end Write_Id;
-----------------------
-- Write_Identifiers --
-----------------------
function Write_Identifiers (Node : Node_Id) return Boolean is
begin
Sprint_Node (Defining_Identifier (Node));
-- The remainder of the declaration must be printed unless we are
-- printing the original tree and this is not the last identifier
return
not Dump_Original_Only or else not More_Ids (Node);
end Write_Identifiers;
------------------------
-- Write_Implicit_Def --
------------------------
procedure Write_Implicit_Def (E : Entity_Id) is
Ind : Node_Id;
begin
case Ekind (E) is
when E_Array_Subtype =>
Write_Str_With_Col_Check ("subtype ");
Write_Id (E);
Write_Str_With_Col_Check (" is ");
Write_Id (Base_Type (E));
Write_Str_With_Col_Check (" (");
Ind := First_Index (E);
while Present (Ind) loop
Sprint_Node (Ind);
Next_Index (Ind);
if Present (Ind) then
Write_Str (", ");
end if;
end loop;
Write_Str (");");
when E_Signed_Integer_Subtype | E_Enumeration_Subtype =>
Write_Str_With_Col_Check ("subtype ");
Write_Id (E);
Write_Str (" is ");
Write_Id (Etype (E));
Write_Str_With_Col_Check (" range ");
Sprint_Node (Scalar_Range (E));
Write_Str (";");
when others =>
Write_Str_With_Col_Check ("type ");
Write_Id (E);
Write_Str_With_Col_Check (" is <");
Write_Ekind (E);
Write_Str (">;");
end case;
end Write_Implicit_Def;
------------------
-- Write_Indent --
------------------
procedure Write_Indent is
begin
if Indent_Annull_Flag then
Indent_Annull_Flag := False;
else
Write_Eol;
for J in 1 .. Indent loop
Write_Char (' ');
end loop;
end if;
end Write_Indent;
------------------------------
-- Write_Indent_Identifiers --
------------------------------
function Write_Indent_Identifiers (Node : Node_Id) return Boolean is
begin
-- We need to start a new line for every node, except in the case
-- where we are printing the original tree and this is not the first
-- defining identifier in the list.
if not Dump_Original_Only or else not Prev_Ids (Node) then
Write_Indent;
-- If printing original tree and this is not the first defining
-- identifier in the list, then the previous call to this procedure
-- printed only the name, and we add a comma to separate the names.
else
Write_Str (", ");
end if;
Sprint_Node (Defining_Identifier (Node));
-- The remainder of the declaration must be printed unless we are
-- printing the original tree and this is not the last identifier
return
not Dump_Original_Only or else not More_Ids (Node);
end Write_Indent_Identifiers;
-----------------------------------
-- Write_Indent_Identifiers_Sloc --
-----------------------------------
function Write_Indent_Identifiers_Sloc (Node : Node_Id) return Boolean is
begin
-- We need to start a new line for every node, except in the case
-- where we are printing the original tree and this is not the first
-- defining identifier in the list.
if not Dump_Original_Only or else not Prev_Ids (Node) then
Write_Indent;
-- If printing original tree and this is not the first defining
-- identifier in the list, then the previous call to this procedure
-- printed only the name, and we add a comma to separate the names.
else
Write_Str (", ");
end if;
Set_Debug_Sloc;
Sprint_Node (Defining_Identifier (Node));
-- The remainder of the declaration must be printed unless we are
-- printing the original tree and this is not the last identifier
return
not Dump_Original_Only or else not More_Ids (Node);
end Write_Indent_Identifiers_Sloc;
----------------------
-- Write_Indent_Str --
----------------------
procedure Write_Indent_Str (S : String) is
begin
Write_Indent;
Write_Str (S);
end Write_Indent_Str;
---------------------------
-- Write_Indent_Str_Sloc --
---------------------------
procedure Write_Indent_Str_Sloc (S : String) is
begin
Write_Indent;
Write_Str_Sloc (S);
end Write_Indent_Str_Sloc;
-------------------------------
-- Write_Name_With_Col_Check --
-------------------------------
procedure Write_Name_With_Col_Check (N : Name_Id) is
J : Natural;
begin
Get_Name_String (N);
-- Deal with -gnatI which replaces digits in an internal
-- name by three dots (e.g. R7b becomes R...b).
if Debug_Flag_II and then Name_Buffer (1) in 'A' .. 'Z' then
J := 2;
while J < Name_Len loop
exit when Name_Buffer (J) not in 'A' .. 'Z';
J := J + 1;
end loop;
if Name_Buffer (J) in '0' .. '9' then
Write_Str_With_Col_Check (Name_Buffer (1 .. J - 1));
Write_Str ("...");
while J <= Name_Len loop
if Name_Buffer (J) not in '0' .. '9' then
Write_Str (Name_Buffer (J .. Name_Len));
exit;
else
J := J + 1;
end if;
end loop;
return;
end if;
end if;
-- Fall through for normal case
Write_Str_With_Col_Check (Name_Buffer (1 .. Name_Len));
end Write_Name_With_Col_Check;
------------------------------------
-- Write_Name_With_Col_Check_Sloc --
------------------------------------
procedure Write_Name_With_Col_Check_Sloc (N : Name_Id) is
begin
Get_Name_String (N);
Write_Str_With_Col_Check_Sloc (Name_Buffer (1 .. Name_Len));
end Write_Name_With_Col_Check_Sloc;
--------------------
-- Write_Operator --
--------------------
procedure Write_Operator (N : Node_Id; S : String) is
F : Natural := S'First;
T : Natural := S'Last;
begin
-- If no overflow check, just write string out, and we are done
if not Do_Overflow_Check (N) then
Write_Str_Sloc (S);
-- If overflow check, we want to surround the operator with curly
-- brackets, but not include spaces within the brackets.
else
if S (F) = ' ' then
Write_Char (' ');
F := F + 1;
end if;
if S (T) = ' ' then
T := T - 1;
end if;
Write_Char ('{');
Write_Str_Sloc (S (F .. T));
Write_Char ('}');
if S (S'Last) = ' ' then
Write_Char (' ');
end if;
end if;
end Write_Operator;
-----------------------
-- Write_Param_Specs --
-----------------------
procedure Write_Param_Specs (N : Node_Id) is
Specs : List_Id;
Spec : Node_Id;
Formal : Node_Id;
begin
Specs := Parameter_Specifications (N);
if Is_Non_Empty_List (Specs) then
Write_Str_With_Col_Check (" (");
Spec := First (Specs);
loop
Sprint_Node (Spec);
Formal := Defining_Identifier (Spec);
Next (Spec);
exit when Spec = Empty;
-- Add semicolon, unless we are printing original tree and the
-- next specification is part of a list (but not the first
-- element of that list)
if not Dump_Original_Only or else not Prev_Ids (Spec) then
Write_Str ("; ");
end if;
end loop;
-- Write out any extra formals
while Present (Extra_Formal (Formal)) loop
Formal := Extra_Formal (Formal);
Write_Str ("; ");
Write_Name_With_Col_Check (Chars (Formal));
Write_Str (" : ");
Write_Name_With_Col_Check (Chars (Etype (Formal)));
end loop;
Write_Char (')');
end if;
end Write_Param_Specs;
--------------------------
-- Write_Rewrite_Str --
--------------------------
procedure Write_Rewrite_Str (S : String) is
begin
if not Dump_Generated_Only then
if S'Length = 3 and then S = ">>>" then
Write_Str (">>>");
else
Write_Str_With_Col_Check (S);
end if;
end if;
end Write_Rewrite_Str;
--------------------
-- Write_Str_Sloc --
--------------------
procedure Write_Str_Sloc (S : String) is
begin
for J in S'Range loop
Write_Char_Sloc (S (J));
end loop;
end Write_Str_Sloc;
------------------------------
-- Write_Str_With_Col_Check --
------------------------------
procedure Write_Str_With_Col_Check (S : String) is
begin
if Int (S'Last) + Column > Line_Limit then
Write_Indent_Str (" ");
if S (1) = ' ' then
Write_Str (S (2 .. S'Length));
else
Write_Str (S);
end if;
else
Write_Str (S);
end if;
end Write_Str_With_Col_Check;
-----------------------------------
-- Write_Str_With_Col_Check_Sloc --
-----------------------------------
procedure Write_Str_With_Col_Check_Sloc (S : String) is
begin
if Int (S'Last) + Column > Line_Limit then
Write_Indent_Str (" ");
if S (1) = ' ' then
Write_Str_Sloc (S (2 .. S'Length));
else
Write_Str_Sloc (S);
end if;
else
Write_Str_Sloc (S);
end if;
end Write_Str_With_Col_Check_Sloc;
------------------------------------
-- Write_Uint_With_Col_Check_Sloc --
------------------------------------
procedure Write_Uint_With_Col_Check_Sloc (U : Uint; Format : UI_Format) is
begin
Col_Check (UI_Decimal_Digits_Hi (U));
Set_Debug_Sloc;
UI_Write (U, Format);
end Write_Uint_With_Col_Check_Sloc;
-------------------------------------
-- Write_Ureal_With_Col_Check_Sloc --
-------------------------------------
procedure Write_Ureal_With_Col_Check_Sloc (U : Ureal) is
D : constant Uint := Denominator (U);
N : constant Uint := Numerator (U);
begin
Col_Check
(UI_Decimal_Digits_Hi (D) + UI_Decimal_Digits_Hi (N) + 4);
Set_Debug_Sloc;
UR_Write (U);
end Write_Ureal_With_Col_Check_Sloc;
end Sprint;
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