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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
function To_SEA (S : String) return Ada.Streams.Stream_Element_Array
renames Natools.S_Expressions.To_Atom;
package Actions is
type Enum is
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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;
with Natools.String_Escapes;
procedure Smaz is
function To_SEA (S : String) return Ada.Streams.Stream_Element_Array
renames Natools.S_Expressions.To_Atom;
package Actions is
type Enum is
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Ada.Strings.Both));
Sx_Output.Close_List;
end loop;
Sx_Output.Close_List;
end if;
if Handler.Stat_Output then
Ada.Text_IO.Put_Line ("Not implemented yet");
end if;
end;
end case;
end Build_Dictionary;
end Smaz;
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Ada.Strings.Both));
Sx_Output.Close_List;
end loop;
Sx_Output.Close_List;
end if;
if Handler.Stat_Output then
declare
type Score_Value is range 0 .. 2 ** 31 - 1;
function Length (E : Ada.Streams.Stream_Element)
return Score_Value
is (Natools.Smaz.Dict_Entry (Dictionary, E)'Length);
function Encoded (E : Ada.Streams.Stream_Element)
return Score_Value
is (Score_Value (Counts (E)) * Length (E));
function Frequency (E : Ada.Streams.Stream_Element)
return Score_Value
is (Score_Value (Counts (E)));
function Gain (E : Ada.Streams.Stream_Element)
return Score_Value
is (Score_Value (Counts (E)) * (Length (E) - 1));
procedure Print
(Label : in String;
E : in Ada.Streams.Stream_Element;
Score : in Score_Value);
procedure Print_Min_Max
(Label : in String;
Score : not null access function
(E : Ada.Streams.Stream_Element) return Score_Value);
procedure Print_Value
(Label : in String;
Score : not null access function
(E : Ada.Streams.Stream_Element) return Score_Value;
Ref : in Score_Value);
procedure Print
(Label : in String;
E : in Ada.Streams.Stream_Element;
Score : in Score_Value) is
begin
if Handler.Sx_Output then
Sx_Output.Open_List;
Sx_Output.Append_Atom ((0 => E));
Sx_Output.Append_String
(Natools.Smaz.Dict_Entry (Dictionary, E));
Sx_Output.Append_String (Ada.Strings.Fixed.Trim
(Score_Value'Image (Score), Ada.Strings.Both));
Sx_Output.Close_List;
else
Ada.Text_IO.Put_Line
(Label
& Ada.Characters.Latin_1.HT
& Ada.Streams.Stream_Element'Image (E)
& Ada.Characters.Latin_1.HT
& Natools.String_Escapes.C_Escape_Hex
(Natools.Smaz.Dict_Entry (Dictionary, E), True)
& Ada.Characters.Latin_1.HT
& Score_Value'Image (Score));
end if;
end Print;
procedure Print_Min_Max
(Label : in String;
Score : not null access function
(E : Ada.Streams.Stream_Element) return Score_Value)
is
Min_Score, Max_Score : Score_Value := Score (0);
S : Score_Value;
begin
for E in 1 .. Dictionary.Dict_Last loop
S := Score (E);
if S < Min_Score then
Min_Score := S;
end if;
if S > Max_Score then
Max_Score := S;
end if;
end loop;
Print_Value ("best-" & Label, Score, Max_Score);
Print_Value ("worst-" & Label, Score, Min_Score);
end Print_Min_Max;
procedure Print_Value
(Label : in String;
Score : not null access function
(E : Ada.Streams.Stream_Element) return Score_Value;
Ref : in Score_Value) is
begin
if Handler.Sx_Output then
Sx_Output.Open_List;
Sx_Output.Append_String (Label);
end if;
for E in Dictionary.Offsets'Range loop
if Score (E) = Ref then
Print (Label, E, Ref);
end if;
end loop;
if Handler.Sx_Output then
Sx_Output.Close_List;
end if;
end Print_Value;
begin
Print_Min_Max ("encoded", Encoded'Access);
Print_Min_Max ("frequency", Frequency'Access);
Print_Min_Max ("gain", Gain'Access);
end;
end if;
end;
end case;
end Build_Dictionary;
end Smaz;
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