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with Ada.Command_Line;
with Ada.Streams;
with Ada.Strings.Unbounded;
with Ada.Text_IO.Text_Streams;
with Natools.Getopt_Long;
with Natools.S_Expressions.Parsers;
with Natools.Smaz.Tools;
with Natools.Smaz.Tools.GNAT;
procedure Smaz is
package Options is
type Id is
(Help,
Output_Ada_Dictionary,
Output_Hash);
end Options;
package Getopt is new Natools.Getopt_Long (Options.Id);
type Callback is new Getopt.Handlers.Callback with record
Display_Help : Boolean := False;
Need_Dictionary : Boolean := False;
Ada_Dictionary : Ada.Strings.Unbounded.Unbounded_String;
Hash_Package : Ada.Strings.Unbounded.Unbounded_String;
end record;
overriding procedure Option
(Handler : in out Callback;
Id : in Options.Id;
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with Ada.Command_Line;
with Ada.Streams;
with Ada.Strings.Unbounded;
with Ada.Text_IO.Text_Streams;
with Natools.Getopt_Long;
with Natools.S_Expressions.Parsers;
with Natools.S_Expressions.Printers;
with Natools.Smaz.Tools;
with Natools.Smaz.Tools.GNAT;
procedure Smaz is
package Actions is
type Enum is
(Nothing,
Encode);
end Actions;
package Options is
type Id is
(Output_Ada_Dictionary,
Encode,
Output_Hash,
Help);
end Options;
package Getopt is new Natools.Getopt_Long (Options.Id);
type Callback is new Getopt.Handlers.Callback with record
Display_Help : Boolean := False;
Need_Dictionary : Boolean := False;
Action : Actions.Enum := Actions.Nothing;
Ada_Dictionary : Ada.Strings.Unbounded.Unbounded_String;
Hash_Package : Ada.Strings.Unbounded.Unbounded_String;
end record;
overriding procedure Option
(Handler : in out Callback;
Id : in Options.Id;
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Id : in Options.Id;
Argument : in String) is
begin
case Id is
when Options.Help =>
Handler.Display_Help := True;
when Options.Output_Ada_Dictionary =>
Handler.Need_Dictionary := True;
if Argument'Length > 0 then
Handler.Ada_Dictionary
:= Ada.Strings.Unbounded.To_Unbounded_String (Argument);
else
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Id : in Options.Id;
Argument : in String) is
begin
case Id is
when Options.Help =>
Handler.Display_Help := True;
when Options.Encode =>
Handler.Need_Dictionary := True;
Handler.Action := Actions.Encode;
when Options.Output_Ada_Dictionary =>
Handler.Need_Dictionary := True;
if Argument'Length > 0 then
Handler.Ada_Dictionary
:= Ada.Strings.Unbounded.To_Unbounded_String (Argument);
else
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function Getopt_Config return Getopt.Configuration is
use Getopt;
use Options;
R : Getopt.Configuration;
begin
R.Add_Option ("ada-dict", 'A', Optional_Argument, Output_Ada_Dictionary);
R.Add_Option ("hash-pkg", 'H', Required_Argument, Output_Hash);
R.Add_Option ("help", 'h', No_Argument, Help);
return R;
end Getopt_Config;
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function Getopt_Config return Getopt.Configuration is
use Getopt;
use Options;
R : Getopt.Configuration;
begin
R.Add_Option ("ada-dict", 'A', Optional_Argument, Output_Ada_Dictionary);
R.Add_Option ("encode", 'e', No_Argument, Encode);
R.Add_Option ("hash-pkg", 'H', Required_Argument, Output_Hash);
R.Add_Option ("help", 'h', No_Argument, Help);
return R;
end Getopt_Config;
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case Id is
when Options.Help =>
New_Line (Output);
Put_Line (Output, Indent & Indent
& "Display this help text");
when Options.Output_Ada_Dictionary =>
Put_Line (Output, "=[filename]");
Put_Line (Output, Indent & Indent
& "Output the current dictionary as Ada code in the given");
Put_Line (Output, Indent & Indent
& "file, or standard output if filename is ""-""");
when Options.Output_Hash =>
Put_Line (Output, " <Hash Package Name>");
Put_Line (Output, Indent & Indent
& "Build a package with a perfect hash function for the");
Put_Line (Output, Indent & Indent
& "current dictionary.");
end case;
end loop;
end Print_Help;
Opt_Config : constant Getopt.Configuration := Getopt_Config;
Handler : Callback;
Input_List : Natools.Smaz.Tools.String_Lists.List;
begin
Process_Command_Line :
begin
Opt_Config.Process (Handler);
exception
when Getopt.Option_Error =>
Print_Help (Opt_Config, Ada.Text_IO.Current_Error);
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case Id is
when Options.Help =>
New_Line (Output);
Put_Line (Output, Indent & Indent
& "Display this help text");
when Options.Encode =>
New_Line (Output);
Put_Line (Output, Indent & Indent
& "Read a list of strings and encode them");
when Options.Output_Ada_Dictionary =>
Put_Line (Output, "=[filename]");
Put_Line (Output, Indent & Indent
& "Output the current dictionary as Ada code in the given");
Put_Line (Output, Indent & Indent
& "file, or standard output if filename is ""-""");
when Options.Output_Hash =>
Put_Line (Output, " <Hash Package Name>");
Put_Line (Output, Indent & Indent
& "Build a package with a perfect hash function for the");
Put_Line (Output, Indent & Indent
& "current dictionary.");
end case;
end loop;
end Print_Help;
Opt_Config : constant Getopt.Configuration := Getopt_Config;
Handler : Callback;
Input_List, Input_Data : Natools.Smaz.Tools.String_Lists.List;
begin
Process_Command_Line :
begin
Opt_Config.Process (Handler);
exception
when Getopt.Option_Error =>
Print_Help (Opt_Config, Ada.Text_IO.Current_Error);
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if not Handler.Need_Dictionary then
return;
end if;
Read_Input_List :
declare
Input : constant access Ada.Streams.Root_Stream_Type'Class
:= Ada.Text_IO.Text_Streams.Stream (Ada.Text_IO.Current_Input);
Parser : Natools.S_Expressions.Parsers.Stream_Parser (Input);
begin
Parser.Next;
Natools.Smaz.Tools.Read_List (Input_List, Parser);
end Read_Input_List;
Build_Dictionary :
declare
Dictionary : constant Natools.Smaz.Dictionary
:= Natools.Smaz.Tools.To_Dictionary (Input_List, True);
Ada_Dictionary : constant String
:= Ada.Strings.Unbounded.To_String (Handler.Ada_Dictionary);
Hash_Package : constant String
:= Ada.Strings.Unbounded.To_String (Handler.Hash_Package);
begin
if Ada_Dictionary'Length > 0 then
Print_Dictionary (Ada_Dictionary, Dictionary, Hash_Package);
end if;
if Hash_Package'Length > 0 then
Natools.Smaz.Tools.GNAT.Build_Perfect_Hash (Input_List, Hash_Package);
end if;
end Build_Dictionary;
end Smaz;
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if not Handler.Need_Dictionary then
return;
end if;
Read_Input_List :
declare
use type Actions.Enum;
Input : constant access Ada.Streams.Root_Stream_Type'Class
:= Ada.Text_IO.Text_Streams.Stream (Ada.Text_IO.Current_Input);
Parser : Natools.S_Expressions.Parsers.Stream_Parser (Input);
begin
Parser.Next;
Natools.Smaz.Tools.Read_List (Input_List, Parser);
if Handler.Action /= Actions.Nothing then
Parser.Next;
Natools.Smaz.Tools.Read_List (Input_Data, Parser);
end if;
end Read_Input_List;
Build_Dictionary :
declare
Dictionary : Natools.Smaz.Dictionary
:= Natools.Smaz.Tools.To_Dictionary (Input_List, True);
Output : Natools.S_Expressions.Printers.Canonical
(Ada.Text_IO.Text_Streams.Stream (Ada.Text_IO.Current_Output));
Ada_Dictionary : constant String
:= Ada.Strings.Unbounded.To_String (Handler.Ada_Dictionary);
Hash_Package : constant String
:= Ada.Strings.Unbounded.To_String (Handler.Hash_Package);
begin
Dictionary.Hash := Natools.Smaz.Tools.Linear_Search'Access;
Natools.Smaz.Tools.List_For_Linear_Search := Input_List;
if Ada_Dictionary'Length > 0 then
Print_Dictionary (Ada_Dictionary, Dictionary, Hash_Package);
end if;
if Hash_Package'Length > 0 then
Natools.Smaz.Tools.GNAT.Build_Perfect_Hash (Input_List, Hash_Package);
end if;
case Handler.Action is
when Actions.Nothing => null;
when Actions.Encode =>
Output.Open_List;
for S of Input_Data loop
Output.Append_Atom (Natools.Smaz.Compress (Dictionary, S));
end loop;
Output.Close_List;
end case;
end Build_Dictionary;
end Smaz;
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