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Length: 22528 (0x5800)
Types: Ada Source
Notes: 03_class, FILE, R1k_Segment, e3_tag, package body Lex, seg_03729f, seg_0377c2, seg_038f57
└─⟦8527c1e9b⟧ Bits:30000544 8mm tape, Rational 1000, Arrival backup of disks in PAM's R1000
└─⟦5a81ac88f⟧ »Space Info Vol 1«
└─⟦this⟧
with Fichier_Io;
with Io;
with Langage;
with String_Utilities;
package body Lex is
function Get_Line return Natural is
begin
return Lex_Line;
end Get_Line;
function Get_Token return Token is
Car : Character;
begin
if Lex_Token = Special then
Car := Bounded_String.Char_At (Lex_Value, 1);
case Car is
when '.' =>
Lex_Token := Dot;
when '(' =>
Lex_Token := Open_Parenthesis;
when ')' =>
Lex_Token := Close_Parenthesis;
when '{' =>
Lex_Token := Open_Bracket;
when '}' =>
Lex_Token := Close_Bracket;
when others =>
null;
end case;
end if;
if Lex_Token = Identifier then
if (String_Utilities.Equal
(Bounded_String.Image (Lex_Value), "ou", True) or
(String_Utilities.Equal
(Bounded_String.Image (Lex_Value), "et", True))) then
Lex_Token := Binary_Message;
end if;
end if;
return (Lex_Token);
end Get_Token;
function Get_Value return Lex_String is
begin
return (Lex_Value);
end Get_Value;
function In_Reserved_Word (Lex_Value : Lex_String) return Boolean is
X : Langage.Reserved_Word;
begin
X := Langage.Reserved_Word'Value (Bounded_String.Image (Lex_Value));
return (True);
exception
when Constraint_Error =>
return (False);
end In_Reserved_Word;
procedure Spell_Reserved_Word (Lex_Value : in out Lex_String) is
X : Langage.Reserved_Word;
begin
X := Langage.Reserved_Word'Value (Bounded_String.Image (Lex_Value));
Bounded_String.Copy (Lex_Value, Langage.Reserved_Word'Image (X));
end Spell_Reserved_Word;
procedure Open (Name : in String) is
begin
Fichier_Io.Open (Fichier_Source, Name);
end Open;
procedure Close (Name : in String) is
begin
Fichier_Io.Close (Fichier_Source);
end Close;
procedure Next_Token is
Current_Character : Character := ' ';
State : State_Key := Normal;
begin
Bounded_String.Free (Lex_Value);
loop
Current_Character := Fichier_Io.Get (Fichier_Source);
case Current_Character is
when 'A' .. 'Z' | 'a' .. 'z' =>
case State is
when Identifier | Tiny_Str =>
Bounded_String.Append
(Lex_Value, Current_Character);
when Special | Operator =>
Fichier_Io.Unget (Fichier_Source);
return;
when Normal =>
State := Identifier;
Lex_Token := Identifier;
Bounded_String.Append
(Lex_Value, Current_Character);
when Integer =>
State := Unknown;
Lex_Token := Unknown;
Bounded_String.Append
(Lex_Value, Current_Character);
return;
when others =>
Fichier_Io.Unget (Fichier_Source);
return;
end case;
when '0' .. '9' =>
case State is
when Integer =>
Bounded_String.Append
(Lex_Value, Current_Character);
when Normal =>
State := Integer;
Lex_Token := Integer;
Bounded_String.Append
(Lex_Value, Current_Character);
when Identifier =>
State := Unknown;
Lex_Token := Unknown;
Bounded_String.Append
(Lex_Value, Current_Character);
when Tiny_Str =>
Bounded_String.Append
(Lex_Value, Current_Character);
when others =>
Fichier_Io.Unget (Fichier_Source);
if In_Reserved_Word (Lex_Value) then
Spell_Reserved_Word (Lex_Value);
Lex_Token := Token'Value (Bounded_String.Image
(Lex_Value));
State := Found;
return;
end if;
return;
end case;
when ':' =>
case State is
when Identifier =>
State := Key_Word;
Lex_Token := Key_Word;
Bounded_String.Append
(Lex_Value, Current_Character);
when Tiny_Str =>
Bounded_String.Append
(Lex_Value, Current_Character);
when others =>
Fichier_Io.Unget (Fichier_Source);
if In_Reserved_Word (Lex_Value) then
Spell_Reserved_Word (Lex_Value);
Lex_Token := Token'Value (Bounded_String.Image
(Lex_Value));
State := Found;
return;
end if;
return;
end case;
when '<' =>
case State is
when Normal =>
State := Less;
Lex_Token := Binary_Message;
Bounded_String.Append
(Lex_Value, Current_Character);
when Less | Less_Equal | Greater_Equal |
Greater | Equal | Different =>
State := Unknown;
Lex_Token := Unknown;
Bounded_String.Append
(Lex_Value, Current_Character);
when Tiny_Str =>
Bounded_String.Append
(Lex_Value, Current_Character);
when others =>
Fichier_Io.Unget (Fichier_Source);
if In_Reserved_Word (Lex_Value) then
Spell_Reserved_Word (Lex_Value);
Lex_Token := Token'Value (Bounded_String.Image
(Lex_Value));
State := Found;
return;
end if;
return;
end case;
when '>' =>
case State is
when Normal =>
State := Greater;
Lex_Token := Binary_Message;
Bounded_String.Append
(Lex_Value, Current_Character);
when Less =>
State := Different;
Lex_Token := Binary_Message;
Bounded_String.Append
(Lex_Value, Current_Character);
when Greater | Greater_Equal |
Less_Equal | Equal | Different =>
State := Unknown;
Lex_Token := Unknown;
Bounded_String.Append
(Lex_Value, Current_Character);
when Tiny_Str =>
Bounded_String.Append
(Lex_Value, Current_Character);
when others =>
Fichier_Io.Unget (Fichier_Source);
if In_Reserved_Word (Lex_Value) then
Spell_Reserved_Word (Lex_Value);
Lex_Token := Token'Value (Bounded_String.Image
(Lex_Value));
State := Found;
return;
end if;
return;
end case;
when '=' =>
case State is
when Normal =>
State := Equal;
Lex_Token := Binary_Message;
Bounded_String.Append
(Lex_Value, Current_Character);
when Less =>
State := Less_Equal;
Lex_Token := Binary_Message;
Bounded_String.Append
(Lex_Value, Current_Character);
when Greater =>
State := Greater_Equal;
Lex_Token := Binary_Message;
Bounded_String.Append
(Lex_Value, Current_Character);
when Equal | Operator =>
State := Unknown;
Lex_Token := Unknown;
Bounded_String.Append
(Lex_Value, Current_Character);
when Tiny_Str =>
Bounded_String.Append
(Lex_Value, Current_Character);
when others =>
Fichier_Io.Unget (Fichier_Source);
if In_Reserved_Word (Lex_Value) then
Spell_Reserved_Word (Lex_Value);
Lex_Token := Token'Value (Bounded_String.Image
(Lex_Value));
State := Found;
return;
end if;
return;
end case;
when '*' | '+' | '-' | '/' =>
case State is
when Normal =>
State := Operator;
Lex_Token := Binary_Message;
Bounded_String.Append
(Lex_Value, Current_Character);
when Operator | Less | Different | Greater |
Equal | Less_Equal | Greater_Equal =>
State := Unknown;
Lex_Token := Unknown;
Bounded_String.Append
(Lex_Value, Current_Character);
when Tiny_Str =>
Bounded_String.Append
(Lex_Value, Current_Character);
when others =>
Fichier_Io.Unget (Fichier_Source);
if In_Reserved_Word (Lex_Value) then
Spell_Reserved_Word (Lex_Value);
Lex_Token := Token'Value (Bounded_String.Image
(Lex_Value));
State := Found;
return;
end if;
return;
end case;
when '{' | '}' | '(' | ')' | '.' =>
case State is
when Normal =>
State := Special;
Lex_Token := Special;
Bounded_String.Append
(Lex_Value, Current_Character);
when Tiny_Str =>
Bounded_String.Append
(Lex_Value, Current_Character);
when others =>
Fichier_Io.Unget (Fichier_Source);
if In_Reserved_Word (Lex_Value) then
Spell_Reserved_Word (Lex_Value);
Lex_Token := Token'Value (Bounded_String.Image
(Lex_Value));
State := Found;
return;
end if;
return;
end case;
when ' ' =>
case State is
when Normal =>
null;
when Special | Different | Less | Greater |
Equal | Less_Equal | Greater_Equal |
Integer | Key_Word | Operator =>
State := Found;
return;
when Identifier =>
if In_Reserved_Word (Lex_Value) then
Spell_Reserved_Word (Lex_Value);
Lex_Token := Token'Value (Bounded_String.Image
(Lex_Value));
State := Found;
return;
end if;
State := Found;
return;
when Tiny_Str =>
Bounded_String.Append
(Lex_Value, Current_Character);
when others =>
State := Unknown;
Lex_Token := Unknown;
return;
end case;
when Ascii.Cr | Ascii.Ht | Ascii.Lf =>
Lex_Line := Lex_Line + Natural (1);
case State is
when Normal =>
null;
when Special | Different | Less | Greater |
Equal | Less_Equal | Greater_Equal |
Integer | Key_Word | Operator =>
State := Found;
return;
when Identifier =>
if In_Reserved_Word (Lex_Value) then
Spell_Reserved_Word (Lex_Value);
Lex_Token := Token'Value (Bounded_String.Image
(Lex_Value));
State := Found;
return;
end if;
State := Found;
return;
when others =>
State := Unknown;
Lex_Token := Unknown;
return;
end case;
when '"' =>
case State is
when Normal =>
State := Tiny_Str;
Lex_Token := Tiny_String;
when Tiny_Str =>
return;
when others =>
Fichier_Io.Unget (Fichier_Source);
if In_Reserved_Word (Lex_Value) then
Spell_Reserved_Word (Lex_Value);
Lex_Token := Token'Value (Bounded_String.Image
(Lex_Value));
State := Found;
return;
end if;
return;
end case;
when Ascii.Eot =>
Lex_Token := L_End;
return;
when others =>
case State is
when Tiny_Str =>
Bounded_String.Append
(Lex_Value, Current_Character);
when others =>
State := Unknown;
Lex_Token := Unknown;
Bounded_String.Append
(Lex_Value, Current_Character);
end case;
end case;
end loop;
-- Lex_Token := L_End;
exception
when Io.End_Error =>
Lex_Token := L_End;
return;
end Next_Token;
end Lex;
nblk1=15
nid=0
hdr6=2a
[0x00] rec0=26 rec1=00 rec2=01 rec3=028
[0x01] rec0=12 rec1=00 rec2=15 rec3=032
[0x02] rec0=24 rec1=00 rec2=14 rec3=008
[0x03] rec0=06 rec1=00 rec2=08 rec3=01e
[0x04] rec0=14 rec1=00 rec2=0d rec3=01a
[0x05] rec0=16 rec1=00 rec2=07 rec3=050
[0x06] rec0=18 rec1=00 rec2=0b rec3=010
[0x07] rec0=17 rec1=00 rec2=0a rec3=040
[0x08] rec0=12 rec1=00 rec2=0e rec3=036
[0x09] rec0=17 rec1=00 rec2=0f rec3=020
[0x0a] rec0=17 rec1=00 rec2=03 rec3=05a
[0x0b] rec0=13 rec1=00 rec2=09 rec3=04a
[0x0c] rec0=17 rec1=00 rec2=12 rec3=054
[0x0d] rec0=12 rec1=00 rec2=06 rec3=034
[0x0e] rec0=17 rec1=00 rec2=04 rec3=068
[0x0f] rec0=15 rec1=00 rec2=13 rec3=02e
[0x10] rec0=1b rec1=00 rec2=11 rec3=006
[0x11] rec0=00 rec1=00 rec2=05 rec3=006
[0x12] rec0=18 rec1=00 rec2=0c rec3=014
[0x13] rec0=17 rec1=00 rec2=02 rec3=010
[0x14] rec0=10 rec1=00 rec2=10 rec3=000
tail 0x2153091f284e2854e2345 0x42a00088462060003