------------------------------------------------------------------------------
-- Copyright (c) 2011, Natacha Porté --
-- --
-- Permission to use, copy, modify, and distribute this software for any --
-- purpose with or without fee is hereby granted, provided that the above --
-- copyright notice and this permission notice appear in all copies. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES --
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF --
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR --
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES --
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN --
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF --
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. --
------------------------------------------------------------------------------
with Ada.Strings.Fixed;
with Ada.Strings.Maps;
package body Natools.Getopt_Long is
package Fixed renames Ada.Strings.Fixed;
package Maps renames Ada.Strings.Maps;
---------------------------
-- Any_Name constructors --
---------------------------
function To_Name (Long_Name : String) return Any_Name is
begin
return Any_Name'(Style => Long,
Size => Long_Name'Length,
Long => Long_Name);
end To_Name;
function To_Name (Short_Name : Character) return Any_Name is
begin
return Any_Name'(Style => Short, Size => 1, Short => Short_Name);
end To_Name;
function Image (Name : Any_Name) return String is
begin
case Name.Style is
when Short => return '-' & Name.Short;
when Long => return "--" & Name.Long;
end case;
-- Alternate implementation:
-- case Name.Style is
-- when Short => return String'(1 => Name.Short);
-- when Long => return '"' & Name.Long & '"';
-- end case;
end Image;
----------------------
-- Default handlers --
----------------------
package body Handlers is
procedure Missing_Argument
(Handler : in out Callback;
Id : Option_Id;
Name : Any_Name)
is
pragma Unreferenced (Handler);
pragma Unreferenced (Id);
begin
raise Option_Error with
"Missing argument to option " & Image (Name);
end Missing_Argument;
procedure Unexpected_Argument
(Handler : in out Callback;
Id : Option_Id;
Name : Any_Name;
Argument : String)
is
pragma Unreferenced (Handler);
pragma Unreferenced (Id);
begin
raise Option_Error with
"Unexpected argument """ & Argument
& """ to option " & Image (Name);
end Unexpected_Argument;
procedure Unknown_Option
(Handler : in out Callback;
Name : Any_Name)
is
pragma Unreferenced (Handler);
begin
raise Option_Error with "Unknown option " & Image (Name);
end Unknown_Option;
end Handlers;
----------------------------
-- Option list management --
----------------------------
procedure Add_Option
(Options : in out Option_Definitions;
Long_Name : String;
Short_Name : Character;
Has_Arg : Argument_Requirement;
Id : Option_Id)
is
New_Option : constant Option
:= (Long_Name_Length => Long_Name'Length,
Id => Id,
Has_Arg => Has_Arg,
Long_Name => Long_Name,
Short_Name => Short_Name);
begin
if Long_Name = Null_Long_Name or Short_Name = Null_Short_Name then
raise Constraint_Error;
end if;
Options.By_Long_Name.Insert (Long_Name, New_Option);
Options.By_Short_Name.Insert (Short_Name, New_Option);
end Add_Option;
procedure Add_Option
(Options : in out Option_Definitions;
Long_Name : String;
Has_Arg : Argument_Requirement;
Id : Option_Id)
is
New_Option : constant Option
:= (Long_Name_Length => Long_Name'Length,
Id => Id,
Has_Arg => Has_Arg,
Long_Name => Long_Name,
Short_Name => Null_Short_Name);
begin
if Long_Name = Null_Long_Name then
raise Constraint_Error;
end if;
Options.By_Long_Name.Insert (Long_Name, New_Option);
end Add_Option;
procedure Add_Option
(Options : in out Option_Definitions;
Short_Name : Character;
Has_Arg : Argument_Requirement;
Id : Option_Id)
is
New_Option : constant Option
:= (Long_Name_Length => 0,
Id => Id,
Has_Arg => Has_Arg,
Long_Name => Null_Long_Name,
Short_Name => Short_Name);
begin
if Short_Name = Null_Short_Name then
raise Constraint_Error;
end if;
Options.By_Short_Name.Insert (Short_Name, New_Option);
end Add_Option;
procedure Del_Option
(Options : in out Option_Definitions;
Id : Option_Id)
is
Short_Name_Cursor : Short_Option_Maps.Cursor
:= Options.By_Short_Name.First;
Long_Name_Cursor : Long_Option_Maps.Cursor
:= Options.By_Long_Name.First;
begin
while Short_Option_Maps.Has_Element (Short_Name_Cursor) loop
declare
Next : constant Short_Option_Maps.Cursor
:= Short_Option_Maps.Next (Short_Name_Cursor);
begin
if Short_Option_Maps.Element (Short_Name_Cursor).Id = Id then
Options.By_Short_Name.Delete (Short_Name_Cursor);
end if;
Short_Name_Cursor := Next;
end;
end loop;
while Long_Option_Maps.Has_Element (Long_Name_Cursor) loop
declare
Next : constant Long_Option_Maps.Cursor
:= Long_Option_Maps.Next (Long_Name_Cursor);
begin
if Long_Option_Maps.Element (Long_Name_Cursor).Id = Id then
Options.By_Long_Name.Delete (Long_Name_Cursor);
end if;
Long_Name_Cursor := Next;
end;
end loop;
end Del_Option;
procedure Del_Option
(Options : in out Option_Definitions;
Long_Name : String) is
begin
Options.By_Long_Name.Delete (Long_Name);
end Del_Option;
procedure Del_Option
(Options : in out Option_Definitions;
Short_Name : Character) is
begin
Options.By_Short_Name.Delete (Short_Name);
end Del_Option;
----------------------------
-- Formatting subprograms --
----------------------------
function Format_Long_Names
(Options : Option_Definitions;
Id : Option_Id;
Separator : String := ", ";
Name_Prefix : String := "--")
return String
is
Long_Name_Count : constant Natural := Get_Long_Name_Count (Options, Id);
Space_Per_Name : constant Positive
:= Name_Prefix'Length + 1 + Separator'Length;
Result : String (1 .. Long_Name_Count * Space_Per_Name);
begin
if Long_Name_Count = 0 then
return "";
end if;
for J in 1 .. Long_Name_Count loop
declare
First : constant Positive
:= Result'First + (J - 1) * Space_Per_Name;
Name : constant String := Get_Long_Name (Options, Id, J);
begin
Result (First .. First + Name_Prefix'Length - 1) := Name_Prefix;
Result (First + Name_Prefix'Length ..
First + Name_Prefix'Length + Name'Length - 1)
:= Name;
Result (First + Name_Prefix'Length + Name'Length ..
First + Space_Per_Name - 1)
:= Separator;
end;
end loop;
return Result (1 .. Long_Name_Count * Space_Per_Name - Separator'Length);
end Format_Long_Names;
function Format_Names
(Options : Option_Definitions;
Id : Option_Id;
Separator : String := ", ";
Long_Name_Prefix : String := "--";
Short_Name_Prefix : String := "-";
Short_First : Boolean := True)
return String
is
Long_Names : constant String
:= Format_Long_Names (Options, Id, Separator, Long_Name_Prefix);
Short_Names : constant String
:= Format_Short_Names (Options, Id, Separator, Short_Name_Prefix);
begin
if Long_Names = "" then
return Short_Names;
elsif Short_Names = "" then
return Long_Names;
elsif Short_First then
return Short_Names & Separator & Long_Names;
else
return Long_Names & Separator & Short_Names;
end if;
end Format_Names;
function Format_Short_Names
(Options : Option_Definitions;
Id : Option_Id;
Separator : String := ", ";
Name_Prefix : String := "-")
return String
is
Short_Names : constant String := Get_Short_Names (Options, Id);
Space_Per_Name : constant Positive
:= Name_Prefix'Length + 1 + Separator'Length;
Result : String (1 .. Short_Names'Length * Space_Per_Name);
begin
if Short_Names = "" then
return "";
end if;
for J in Short_Names'Range loop
declare
First : constant Positive
:= Result'First + (J - Short_Names'First) * Space_Per_Name;
begin
Result (First .. First + Name_Prefix'Length - 1) := Name_Prefix;
Result (First + Name_Prefix'Length) := Short_Names (J);
Result (First + Name_Prefix'Length + 1 ..
First + Space_Per_Name - 1) := Separator;
end;
end loop;
return Result (Result'First .. Result'Last - Separator'Length);
end Format_Short_Names;
function Get_Long_Name
(Options : Option_Definitions;
Id : Option_Id;
Index : Positive := 1)
return String
is
Seen : Natural := 0;
Cursor : Long_Option_Maps.Cursor := Options.By_Long_Name.First;
begin
while Long_Option_Maps.Has_Element (Cursor) loop
declare
Opt : constant Option := Long_Option_Maps.Element (Cursor);
begin
if Opt.Id = Id then
Seen := Seen + 1;
if Seen = Index then
return Opt.Long_Name;
end if;
end if;
end;
Long_Option_Maps.Next (Cursor);
end loop;
raise Constraint_Error;
end Get_Long_Name;
function Get_Long_Name_Count
(Options : Option_Definitions;
Id : Option_Id)
return Natural
is
procedure Process (Key : String; Element : Option);
procedure Process (Cursor : Long_Option_Maps.Cursor);
Result : Natural := 0;
procedure Process (Key : String; Element : Option) is
pragma Unreferenced (Key);
begin
if Element.Id = Id then
Result := Result + 1;
end if;
end Process;
procedure Process (Cursor : Long_Option_Maps.Cursor) is
begin
Long_Option_Maps.Query_Element (Cursor, Process'Access);
end Process;
begin
Options.By_Long_Name.Iterate (Process'Access);
return Result;
end Get_Long_Name_Count;
function Get_Short_Name_Count
(Options : Option_Definitions;
Id : Option_Id)
return Natural
is
procedure Process (Key : Character; Element : Option);
procedure Process (Cursor : Short_Option_Maps.Cursor);
Result : Natural := 0;
procedure Process (Key : Character; Element : Option) is
pragma Unreferenced (Key);
begin
if Element.Id = Id then
Result := Result + 1;
end if;
end Process;
procedure Process (Cursor : Short_Option_Maps.Cursor) is
begin
Short_Option_Maps.Query_Element (Cursor, Process'Access);
end Process;
begin
Options.By_Short_Name.Iterate (Process'Access);
return Result;
end Get_Short_Name_Count;
function Get_Short_Names
(Options : Option_Definitions;
Id : Option_Id)
return String
is
procedure Process (Key : Character; Element : Option);
procedure Process (Cursor : Short_Option_Maps.Cursor);
Result : String (1 .. Options.Get_Short_Name_Count (Id));
J : Positive := Result'First;
procedure Process (Key : Character; Element : Option) is
begin
if Element.Id = Id then
Result (J) := Key;
J := J + 1;
end if;
end Process;
procedure Process (Cursor : Short_Option_Maps.Cursor) is
begin
Short_Option_Maps.Query_Element (Cursor, Process'Access);
end Process;
begin
Options.By_Short_Name.Iterate (Process'Access);
return Result;
end Get_Short_Names;
procedure Iterate
(Options : Option_Definitions;
Process : not null access procedure (Id : Option_Id;
Long_Name : String;
Short_Name : Character;
Has_Arg : Argument_Requirement))
is
procedure Long_Process (Key : String; Opt : Option);
procedure Long_Query (C : Long_Option_Maps.Cursor);
procedure Short_Process (Key : Character; Opt : Option);
procedure Short_Query (C : Short_Option_Maps.Cursor);
procedure Long_Process (Key : String; Opt : Option) is
pragma Unreferenced (Key);
begin
if Opt.Short_Name = Null_Short_Name then
Process (Opt.Id, Opt.Long_Name, Opt.Short_Name, Opt.Has_Arg);
end if;
end Long_Process;
procedure Long_Query (C : Long_Option_Maps.Cursor) is
begin
Long_Option_Maps.Query_Element (C, Long_Process'Access);
end Long_Query;
procedure Short_Process (Key : Character; Opt : Option) is
pragma Unreferenced (Key);
begin
Process (Opt.Id, Opt.Long_Name, Opt.Short_Name, Opt.Has_Arg);
end Short_Process;
procedure Short_Query (C : Short_Option_Maps.Cursor) is
begin
Short_Option_Maps.Query_Element (C, Short_Process'Access);
end Short_Query;
begin
Options.By_Short_Name.Iterate (Short_Query'Access);
Options.By_Long_Name.Iterate (Long_Query'Access);
end Iterate;
-----------------------------
-- Command-line processing --
-----------------------------
procedure Process
(Options : Option_Definitions;
Handler : in out Handlers.Callback'Class;
Posixly_Correct : Boolean := True;
Long_Only : Boolean := False;
Argument_Count : not null access function return Natural
:= Ada.Command_Line.Argument_Count'Access;
Argument : not null access function (Number : Positive) return String
:= Ada.Command_Line.Argument'Access)
is
procedure Process_Long_Option (Arg : String);
Arg_Count : constant Natural := Argument_Count.all;
Arg_N : Positive := 1;
procedure Process_Long_Option (Arg : String) is
function Has_Prefix (C : Long_Option_Maps.Cursor; Prefix : String)
return Boolean;
Equal : constant Natural := Fixed.Index (Arg, Maps.To_Set ('='));
Cursor : Long_Option_Maps.Cursor;
Arg_Name_Last : Natural := Arg'Last;
function Has_Prefix (C : Long_Option_Maps.Cursor; Prefix : String)
return Boolean
is
Key : constant String := Long_Option_Maps.Key (C);
begin
return Key'Length >= Prefix'Length and then
Key (1 .. Prefix'Length) = Prefix;
end Has_Prefix;
begin
if Equal /= 0 then
Arg_Name_Last := Equal - 1;
end if;
declare
Arg_Name : String renames Arg (Arg'First .. Arg_Name_Last);
begin
-- Looking for an exact match
Cursor := Options.By_Long_Name.Find (Arg_Name);
if not Long_Option_Maps.Has_Element (Cursor) then
-- Looking for a unique partial match
Cursor := Options.By_Long_Name.Ceiling (Arg_Name);
if not Long_Option_Maps.Has_Element (Cursor) or else
not Has_Prefix (Cursor, Arg_Name) or else
Has_Prefix (Long_Option_Maps.Next (Cursor), Arg_Name)
then
Handler.Unknown_Option (To_Name (Arg_Name));
return;
end if;
end if;
-- At this point, Cursor points to the selected argument
declare
Opt : constant Option := Long_Option_Maps.Element (Cursor);
begin
case Opt.Has_Arg is
when No_Argument =>
if Equal = 0 then
Handler.Option (Opt.Id, "");
else
Handler.Unexpected_Argument
(Opt.Id,
To_Name (Opt.Long_Name),
Arg (Equal + 1 .. Arg'Last));
end if;
when Optional_Argument =>
if Equal = 0 then
Handler.Option (Opt.Id, "");
else
Handler.Option (Opt.Id, Arg (Equal + 1 .. Arg'Last));
end if;
when Required_Argument =>
if Equal = 0 then
if Arg_N = Arg_Count then
Handler.Missing_Argument
(Opt.Id, To_Name (Opt.Long_Name));
else
Handler.Option (Opt.Id, Argument (Arg_N + 1));
Arg_N := Arg_N + 1;
end if;
else
Handler.Option (Opt.Id, Arg (Equal + 1 .. Arg'Last));
end if;
end case;
end;
end;
end Process_Long_Option;
begin
while Arg_N <= Arg_Count loop
declare
Arg : constant String := Argument (Arg_N);
begin
if Arg'Length <= 1 or else Arg (Arg'First) /= '-' then
-- This is a non-flag argument, abort option processing if
-- posixly correct.
if Posixly_Correct then
exit;
else
Handler.Argument (Arg);
Arg_N := Arg_N + 1;
end if;
elsif Arg (Arg'First + 1) = '-' then
-- "--" stops option processing.
if Arg'Length = 2 then
Arg_N := Arg_N + 1;
exit;
end if;
-- Argument starting with "--": long option.
Process_Long_Option (Arg (Arg'First + 2 .. Arg'Last));
Arg_N := Arg_N + 1;
elsif Long_Only then
-- Force long option on a single dash prefix.
Process_Long_Option (Arg (Arg'First + 1 .. Arg'Last));
Arg_N := Arg_N + 1;
else
-- Process a list of short options, until one with required
-- argument is encountered (and the rest is its argument).
for Arg_I in Arg'First + 1 .. Arg'Last loop
declare
Cursor : constant Short_Option_Maps.Cursor
:= Options.By_Short_Name.Find (Arg (Arg_I));
begin
if Short_Option_Maps.Has_Element (Cursor) then
declare
Opt : constant Option
:= Short_Option_Maps.Element (Cursor);
begin
if Opt.Has_Arg = Required_Argument then
if Arg_I = Arg'Last then
if Arg_N = Arg_Count then
Handler.Missing_Argument
(Opt.Id, To_Name (Opt.Short_Name));
else
Handler.Option
(Opt.Id, Argument (Arg_N + 1));
Arg_N := Arg_N + 1;
exit;
end if;
else
Handler.Option
(Opt.Id, Arg (Arg_I + 1 .. Arg'Last));
exit;
end if;
else
Handler.Option (Opt.Id, "");
end if;
end;
else
Handler.Unknown_Option (To_Name (Arg (Arg_I)));
end if;
end;
end loop;
Arg_N := Arg_N + 1;
end if;
end;
end loop;
-- Only non-flag arguments remain
while Arg_N <= Arg_Count loop
Handler.Argument (Argument (Arg_N));
Arg_N := Arg_N + 1;
end loop;
end Process;
end Natools.Getopt_Long;