|
DataMuseum.dkPresents historical artifacts from the history of: Rational R1000/400 |
This is an automatic "excavation" of a thematic subset of
See our Wiki for more about Rational R1000/400 Excavated with: AutoArchaeologist - Free & Open Source Software. |
top - metrics - download
Length: 6144 (0x1800)
Types: Ada Source
Notes: 03_class, FILE, R1k_Segment, e3_tag, package body Statements, seg_037cee, seg_038ad5
└─⟦8527c1e9b⟧ Bits:30000544 8mm tape, Rational 1000, Arrival backup of disks in PAM's R1000
└─⟦5a81ac88f⟧ »Space Info Vol 1«
└─⟦this⟧
└─⟦8527c1e9b⟧ Bits:30000544 8mm tape, Rational 1000, Arrival backup of disks in PAM's R1000
└─⟦cfc2e13cd⟧ »Space Info Vol 2«
└─⟦this⟧
with Expression;
with More_Statements;
with Msg_Report;
with Object;
with Scanner;
with Unparse_Report;
package body Statements is
type Node_Structure is
record
Rule : Natural range 0 .. 2 := 0;
Expr : Expression.Node := Expression.Empty_Node;
More : More_Statements.Node := More_Statements.Empty_Node;
Lign : Integer;
end record;
procedure Parse (N : in out Node; Error : out Boolean) is
Failed : Boolean := False;
use Scanner;
begin
Msg_Report.Information ("I enter in statement's parse");
N := new Node_Structure;
N.Lign := Scanner.Line_Number;
if Expression.Is_First (Scanner.Symbol) then
N.Rule := 1;
Expression.Parse (N.Expr, Failed);
if Scanner.Symbol = L_Unknown then
Failed := True;
else
if Scanner.Symbol /= L_Eof and Scanner.Symbol /= L_Dot then
Msg_Report.Syntax_Error
("expected statements separator '.'");
Failed := True;
end if;
end if;
if not Failed then
More_Statements.Parse (N.More, Failed);
end if;
else
case Scanner.Symbol is
when Scanner.L_Renvoyer =>
N.Rule := 2;
Scanner.Next;
Expression.Parse (N.Expr, Failed);
when others =>
null;
end case;
end if;
Msg_Report.Information ("I leave statement's parse with failed = " &
Boolean'Image (Failed));
Error := Failed;
end Parse;
procedure Unparse (N : Node) is
begin
case N.Rule is
when 0 =>
null;
when 1 =>
Expression.Unparse (N.Expr);
More_Statements.Unparse (N.More);
when 2 =>
Unparse_Report.Write ("RENVOYER ");
Expression.Unparse (N.Expr);
end case;
end Unparse;
function Is_First (T : Scanner.Token) return Boolean is
use Scanner;
begin
return T = L_Renvoyer or else Expression.Is_First (T);
end Is_First;
function Interpret (N : Node;
Inherited : Object.Reference := Object.Void_Reference)
return Object.Reference is
Result : Object.Reference;
begin
Msg_Report.Set_Line_Number (N.Lign);
Msg_Report.Information ("I enter in statement's interpret");
case N.Rule is
when 0 =>
Result := Inherited;
when 1 =>
Result := Expression.Interpret (N.Expr);
Result := More_Statements.Interpret (N.More, Result);
when 2 =>
Result := Expression.Interpret (N.Expr);
end case;
Msg_Report.Information ("I leave statement's interpret with result :");
Msg_Report.Continue
("class = " & Object.Class'Image (Object.The_Class (Result)) &
" ident = " & Integer'Image (Object.Identificator (Result)));
return Result;
end Interpret;
end Statements;
nblk1=5
nid=0
hdr6=a
[0x00] rec0=25 rec1=00 rec2=01 rec3=05a
[0x01] rec0=00 rec1=00 rec2=05 rec3=032
[0x02] rec0=27 rec1=00 rec2=04 rec3=01a
[0x03] rec0=20 rec1=00 rec2=03 rec3=06c
[0x04] rec0=0f rec1=00 rec2=02 rec3=000
tail 0x21531152484e57c8372e6 0x42a00088462060003