% 8 * 12 Vector Characters
CV := MkVect(127)$
BlankChar := 'NIL$
% Labeled Points on Rectangle (8 x 12 )
% C4 Q6 S3 Q5 C3
%
%
% Q7 M3 Q4
%
%
% S4 M4 M0 M2 S2
%
%
% Q8 M1 Q3
%
%
% C1 Q1 S1 Q2 C2
% Corners:
C1:={0,0}$ C2 := {8,0}$ C4:={0,12}$ C3:= {8,12}$
% Side MidPoints:
S1 := {4,0}$ S3 := {4,12}$
S4 := {0,6}$ S2 := {8,6}$
% Middle:
M0 := {4,6}$
M1 := {4,3}$
M2 := {6,6}$
M3 := {4,9}$
M4 := {2,6}$
% Side Quarter Points:
Q1 := {2,0}$ Q2 := {6,0}$
Q3 := {8,3}$ Q4 := {8,9}$
Q5 := {6,12}$ Q6 := {2,12}$
Q7 := {0,9}$ Q8 := {0,3}$
For i:=0:127 do CV[I]:=BlankChar;
% UpperCase:
CV[Char A] := C1 _ S3 _ C2 & M4 _ M2$
CV[Char B] := C1 _ C4 _ Q5 _ Q4 _ M2 _ S4 & M2 _ Q3 _ Q2 _ C1 $
CV[Char C] := Q3 _ Q2 _ Q1 _ Q8 _ Q7 _ Q6 _ Q5 _ Q4$
CV[Char D] := C1 _ C4 _ Q5 _ Q4 _ Q3 _ Q2 _ C1$
CV[Char E] := C3 _ C4 _ C1 _ C2 & S4 _ S2$
CV[Char F] := C3 _ C4 _ C1 & S4 _ S2$
CV[Char G] := M0 _ S2 _ Q2 _ Q1 _ Q8 _ Q7 _ Q6 _ Q5 _ Q4$
CV[Char H] := C4 _ C1 & S4 _ S2 & C3 _ C2$
CV[Char I] := S1 _ S3$
CV[Char J] := C3 _ Q3 _ Q2 _ Q1 _ Q8$
CV[Char K] := C4 _ C1 & C3 _ S4 _ C2$
CV[Char L] := C4 _ C1 _ C2$
CV[Char M] := C1 _ C4 _ M0 _ C3 _ C2$
CV[Char N] := C1 _ C4 _ C2 _ C3$
CV[Char O] := Q3 _ Q2 _ Q1 _ Q8 _ Q7 _ Q6 _ Q5 _ Q4 _ Q3$
CV[Char P] := C1 _ C4 _ Q5 _ Q4 _ M2 _ S4$
CV[Char Q] := Q3 _ Q2 _ Q1 _ Q8 _ Q7 _ Q6 _ Q5 _ Q4 _ Q3 & C2 _ M1$
CV[Char R] := C1 _ C4 _ Q5 _ Q4 _ M2 _ S4 & M0 _ C2$
CV[Char S] := Q4 _ Q5 _ Q6 _ Q7 _ M4 _ M2 _ Q3 _ Q2 _ Q1 _ Q8$
CV[Char T] := C4 _ C3 & S3 _ S1$
CV[Char U] := C4 _ Q8 _ Q1 _ Q2 _ Q3 _ C3$
CV[Char V] := C4 _ S1 _ C3$
CV[Char W] := C4 _ Q1 _ M0 _ Q2 _ C3$
CV[Char X] := C1 _ C3 & C4 _ C2$
CV[Char Y] := C4 _ M0 _ C3 & M0 _ S1$
CV[Char Z] := C4 _ C3 _ C1 _ C2$
% Lower Case, Alias for Now:
CV[Char Lower A] := CV[Char A]$
CV[Char Lower B] := CV[Char B]$
CV[Char Lower C] := CV[Char C]$
CV[Char Lower D] := CV[Char D]$
CV[Char Lower E] := CV[Char E]$
CV[Char Lower F] := CV[Char F]$
CV[Char Lower G] := CV[Char G]$
CV[Char Lower H] := CV[Char H]$
CV[Char Lower I] := CV[Char I]$
CV[Char Lower J] := CV[Char J]$
CV[Char Lower K] := CV[Char K]$
CV[Char Lower L] := CV[Char L]$
CV[Char Lower M] := CV[Char M]$
CV[Char Lower N] := CV[Char N]$
CV[Char Lower O] := CV[Char O]$
CV[Char Lower P] := CV[Char P]$
CV[Char Lower Q] := CV[Char Q]$
CV[Char Lower R] := CV[Char R]$
CV[Char Lower S] := CV[Char S]$
CV[Char Lower T] := CV[Char T]$
CV[Char Lower U] := CV[Char U]$
CV[Char Lower V] := CV[Char V]$
CV[Char Lower W] := CV[Char W]$
CV[Char Lower X] := CV[Char X]$
CV[Char Lower Y] := CV[Char Y]$
CV[Char Lower Z] := CV[Char Z]$
% Digits:
CV[Char 0] := CV[Char O]$
CV[Char 1] := CV[Char I]$
CV[Char 2] := Q7 _ Q6 _ Q5 _ Q4 _ M0 _ C1 _ C2$
CV[Char 3] := C4 _ C3 _ M0 _ Q3 _ Q2 _ Q1 _ Q8$
CV[Char 4] := S1 _ S3 _ S4 _ S2$
CV[Char 5] := C3 _ C4 _ S4 _ M0 _ Q3 _ Q2 _ Q1 _ Q8$
CV[Char 6] := Q4 _ Q5 _ Q6 _ Q7 _ Q8 _ Q1 _ Q2 _ Q3 _
M2 _ M4 _ Q8$
CV[Char 7] := C4 _ C3 _ S1$
CV[Char 8] := M0 _ M4 _ Q8 _ Q1 _ Q2 _ Q3 _ M2 _ M0
& M2 _ Q4 _ Q5 _ Q6 _ Q7 _ M4$
CV[Char 9] := Q8 _ Q1 _ Q2 _ Q3 _ Q4 _ Q5 _
Q6 _ Q7 _ M4 _ M2 _ Q4$
% Some Special Chars:
CV[Char !+ ] := S1 _ S3 & S4 _ S2$
CV[Char !- ] := S4 _ S2 $
CV[Char !* ] := S1 _ S3 & S4 _ S2 & C1 _ C3 & C4 _ C2 $
CV[Char !/ ] := C1 _ C3 $
CV[Char !\ ] := C4 _ C2 $
CV[Char !( ] := Q6 _ Q7 _ Q8 _ Q1 $
CV[Char !) ] := Q5 _ Q4 _ Q3 _ Q2 $
CV[Char ![ ] := Q6 _ C4 _ C1 _ Q1$
CV[Char !] ] := Q5 _ C3 _ C2 _ Q2$
CV[Char != ] := Q7 _ Q4 & Q8 _ Q3 $
% Some Simple Display Routines:
Xshift := Xmove(10)$
Yshift := Ymove(15)$
Procedure ShowString(S);
<<Graphon();
ShowString1(S,Global!.Transform);
Graphoff()>>;
Procedure ShowString1(S,Current!.Transform);
Begin scalar i,ch;
For i:=0:Size S
do <<Draw1(CV[S[i]],Current!.Transform);
Current!.Transform := Mat!*mat(XShift,Current!.TRansform)>>;
End;
Procedure C x;
if x:=CV[x] then EShow x;
Procedure FullTest();
<<Global!.Transform := MAT!*1;
ShowString "ABCDEFGHIJKLMNOPQRTSUVWXYZ 0123456789";
NIL>>;
Procedure SpeedTest();
<<Global!.Transform := Mat!*1;
For i:=0:127 do C i;
NIL>>;
Procedure SlowTest();
<<Global!.Transform := Mat!*1;
For i:=0:127 do
<<C i;
Delay()>>;
NIL>>;
Procedure Delay;
For i:=1:500 do nil;
Procedure Text(S);
List('TEXT,S);
Put('TEXT,'PBINTRP,'DrawTEXT)$
Procedure DrawText(StartPoint,S); %. Draw a Text String
Begin scalar MoveP;
If IDP StartPoint then StartPoint := EVAL StartPoint$
S := CAR1 S$
If IDP S then
S := EVAL S$
MoveP:=PositionAt StartPoint;
ShowString1(S,Mat!*Mat(MoveP,Current!.Transform));
Return NIL;
end$
Procedure PositionAt StartPoint; % return A matrix to set relative Origin
<< If IDP StartPoint then StartPoint := EVAL StartPoint$
Mat8(1,0,StartPoint[0],
0,1,StartPoint[1],
0,0,StartPoint[2])>>;