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Put_Line (Output, Indent & Indent
& "Disable variable-length verbatim in built dictionary");
end case;
end loop;
end Print_Help;
function To_Dictionary
procedure Process
(Handler : in Callback'Class;
Input : in Natools.Smaz_Tools.String_Lists.List)
return Natools.Smaz_256.Dictionary
Word_List : in Natools.Smaz_Tools.String_Lists.List;
Data_List : in Natools.Smaz_Tools.String_Lists.List)
is
use type Natools.Smaz_Tools.String_Count;
use type Dict_Sources.Enum;
begin
case Handler.Dict_Source is
when Dict_Sources.S_Expression =>
return Tools_256.To_Dictionary (Input, Handler.Vlen_Verbatim);
when Dict_Sources.Text_List | Dict_Sources.Unoptimized_Text_List =>
declare
Counter : Natools.Smaz_Tools.Word_Counter;
begin
for S of Input loop
Natools.Smaz_Tools.Add_Substrings
(Counter, S, Handler.Min_Sub_Size, Handler.Max_Sub_Size);
if Handler.Max_Word_Size > Handler.Max_Sub_Size then
Natools.Smaz_Tools.Add_Words
(Counter, S,
Handler.Max_Sub_Size + 1, Handler.Max_Word_Size);
end if;
end loop;
if Handler.Filter_Threshold > 0 then
Natools.Smaz_Tools.Filter_By_Count
(Counter, Handler.Filter_Threshold);
end if;
if Handler.Dict_Source = Dict_Sources.Text_List then
declare
Selected, Pending : Natools.Smaz_Tools.String_Lists.List;
begin
Natools.Smaz_Tools.Simple_Dictionary_And_Pending
(Counter,
Handler.Dict_Size,
Selected,
Pending,
Handler.Score_Method,
Handler.Max_Pending);
return Optimize_Dictionary
(Tools_256.To_Dictionary
(Selected, Handler.Vlen_Verbatim),
Pending,
Input,
Handler.Job_Count,
Handler.Score_Method);
end;
else
return Tools_256.To_Dictionary
(Natools.Smaz_Tools.Simple_Dictionary
(Counter, Handler.Dict_Size, Handler.Score_Method),
Handler.Vlen_Verbatim);
end if;
end;
end case;
end To_Dictionary;
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);
Ada.Command_Line.Set_Exit_Status (Ada.Command_Line.Failure);
return;
end Process_Command_Line;
if Handler.Display_Help then
Print_Help (Opt_Config, Ada.Text_IO.Current_Output);
end if;
if not Handler.Need_Dictionary then
return;
end if;
if not (Handler.Stat_Output or Handler.Sx_Output) then
Handler.Sx_Output := True;
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_256.Dictionary
:= To_Dictionary (Handler, Input_List);
:= To_Dictionary (Handler, Word_List);
Sx_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;
Natools.Smaz_Tools.List_For_Linear_Search := Word_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);
Natools.Smaz_Tools.GNAT.Build_Perfect_Hash (Word_List, Hash_Package);
end if;
if Handler.Sx_Dict_Output then
Sx_Output.Open_List;
for I in Dictionary.Offsets'Range loop
Sx_Output.Append_String
(Natools.Smaz_256.Dict_Entry (Dictionary, I));
end loop;
Sx_Output.Close_List;
end if;
case Handler.Action is
when Actions.Nothing => null;
when Actions.Decode =>
if Handler.Sx_Output then
Sx_Output.Open_List;
for S of Input_Data loop
for S of Data_List loop
Sx_Output.Append_String
(Natools.Smaz_256.Decompress (Dictionary, To_SEA (S)));
end loop;
Sx_Output.Close_List;
end if;
if Handler.Stat_Output then
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& Natural'Image (Output)
& Ada.Characters.Latin_1.HT
& Float'Image (Float (Original) / Float (Output)));
end Print_Line;
Original_Total : Natural := 0;
Output_Total : Natural := 0;
begin
for S of Input_Data loop
for S of Data_List loop
declare
Original_Size : constant Natural := S'Length;
Output_Size : constant Natural
:= Natools.Smaz_256.Decompress
(Dictionary, To_SEA (S))'Length;
begin
Print_Line (Original_Size, Output_Size);
Original_Total := Original_Total + Original_Size;
Output_Total := Output_Total + Output_Size;
end;
end loop;
Print_Line (Original_Total, Output_Total);
end;
end if;
when Actions.Encode =>
if Handler.Sx_Output then
Sx_Output.Open_List;
for S of Input_Data loop
for S of Data_List loop
Sx_Output.Append_Atom
(Natools.Smaz_256.Compress (Dictionary, S));
end loop;
Sx_Output.Close_List;
end if;
if Handler.Stat_Output then
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& Ada.Characters.Latin_1.HT
& Float'Image (Float (Base64) / Float (Original)));
end Print_Line;
Original_Total : Natural := 0;
Output_Total : Natural := 0;
Base64_Total : Natural := 0;
begin
for S of Input_Data loop
for S of Data_List loop
declare
Original_Size : constant Natural := S'Length;
Output_Size : constant Natural
:= Natools.Smaz_256.Compress (Dictionary, S)'Length;
Base64_Size : constant Natural
:= ((Output_Size + 2) / 3) * 4;
begin
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when Actions.Evaluate =>
declare
Total_Size : Ada.Streams.Stream_Element_Count;
Counts : Tools_256.Dictionary_Counts;
begin
Evaluate_Dictionary (Handler.Job_Count,
Dictionary, Input_Data, Total_Size, Counts);
Dictionary, Data_List, Total_Size, Counts);
if Handler.Sx_Output then
Sx_Output.Open_List;
Sx_Output.Append_String (Ada.Strings.Fixed.Trim
(Ada.Streams.Stream_Element_Count'Image (Total_Size),
Ada.Strings.Both));
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Tools_256.Score_Frequency'Access);
Print_Min_Max ("gain",
Tools_256.Score_Gain'Access);
end;
end if;
end;
end case;
end Process;
function To_Dictionary
(Handler : in Callback'Class;
Input : in Natools.Smaz_Tools.String_Lists.List)
return Natools.Smaz_256.Dictionary
is
use type Natools.Smaz_Tools.String_Count;
use type Dict_Sources.Enum;
begin
case Handler.Dict_Source is
when Dict_Sources.S_Expression =>
return Tools_256.To_Dictionary (Input, Handler.Vlen_Verbatim);
when Dict_Sources.Text_List | Dict_Sources.Unoptimized_Text_List =>
declare
Counter : Natools.Smaz_Tools.Word_Counter;
begin
for S of Input loop
Natools.Smaz_Tools.Add_Substrings
(Counter, S, Handler.Min_Sub_Size, Handler.Max_Sub_Size);
if Handler.Max_Word_Size > Handler.Max_Sub_Size then
Natools.Smaz_Tools.Add_Words
(Counter, S,
Handler.Max_Sub_Size + 1, Handler.Max_Word_Size);
end if;
end loop;
if Handler.Filter_Threshold > 0 then
Natools.Smaz_Tools.Filter_By_Count
(Counter, Handler.Filter_Threshold);
end if;
if Handler.Dict_Source = Dict_Sources.Text_List then
declare
Selected, Pending : Natools.Smaz_Tools.String_Lists.List;
begin
Natools.Smaz_Tools.Simple_Dictionary_And_Pending
(Counter,
Handler.Dict_Size,
Selected,
Pending,
Handler.Score_Method,
Handler.Max_Pending);
return Optimize_Dictionary
(Tools_256.To_Dictionary
(Selected, Handler.Vlen_Verbatim),
Pending,
Input,
Handler.Job_Count,
Handler.Score_Method);
end;
else
return Tools_256.To_Dictionary
(Natools.Smaz_Tools.Simple_Dictionary
(Counter, Handler.Dict_Size, Handler.Score_Method),
Handler.Vlen_Verbatim);
end if;
end;
end case;
end Build_Dictionary;
end To_Dictionary;
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);
Ada.Command_Line.Set_Exit_Status (Ada.Command_Line.Failure);
return;
end Process_Command_Line;
if Handler.Display_Help then
Print_Help (Opt_Config, Ada.Text_IO.Current_Output);
end if;
if not Handler.Need_Dictionary then
return;
end if;
if not (Handler.Stat_Output or Handler.Sx_Output) then
Handler.Sx_Output := True;
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;
Process (Handler, Input_List, Input_Data);
end Smaz;
|