⟦432fee27c⟧

UPAS Segment

SAVE filename: "E-STR"

 0010 REM   «so»   * ELEKTRONSTRUKTUR-MODEL *  ØH-12-79«nul»«nul»
 0020 DIM T$ ( 50 )
 0030 DIM NN ( 20 ) , LL ( 20 ) , AA ( 20 ) , S ( 8 )
 0040 LET J = 1 ; T$ = "-----------------------------------------------------------"
 0050 EXEC HOVED
 0060 FOR SUM = 1 TO 8
 0070   FOR N = 1 TO SUM
 0080     FOR L = 0 TO N - 1
 0090       IF N + L = SUM THEN
 0100         LET NN ( J ) = N ; LL ( J ) = L ; AA ( J ) = 2 * ( 2 * L + 1 ) ; J = J + 1
 0110       ENDIF 
 0120     NEXT 
 0130   NEXT 
 0140 NEXT 
 0150 FOR Z = 1 TO 120
 0160   LET J = 0 ; A = 0 ; N = 2.83903e-72
 0170   REM      MAT S=ZER«nul»P
 0171   FOR I = 1 TO 8
 0172     LET S ( I ) = 0
 0173   NEXT 
 0180   LET J = J + 1
 0190   IF N < NN ( J ) THEN LET N = NN ( J )
 0200   LET A = A + AA ( J ) ; S ( NN ( J ) ) = S ( NN ( J ) ) + AA ( J )
 0210   IF Z - A > 0 THEN GOTO 0180
 0220   LET S ( NN ( J ) ) = S ( NN ( J ) ) + Z - A
 0230   IF N > 2 THEN
 0240     LET Q = ( S ( N ) = 2 AND S ( N - 1 ) = 17 ) * 1
 0250     LET P = ( S ( N - 1 ) = 8 AND S ( N - 2 ) = 19 ) * 1
 0260     LET S ( N ) = S ( N ) - Q ; S ( N - 1 ) = S ( N - 1 ) + Q + P ; S ( N - 2 ) = S ( N - 2 ) - P
 0270   ENDIF 
 0280   PRINT "Z =####   " , Z ;
 0290   FOR I = 1 TO N
 0300     PRINT " ### " , S ( I ) ;
 0310   NEXT 
 0320   PRINT
 0330   IF S ( N ) = 8 OR ( N = 1 AND S ( 1 ) = 2 ) THEN PRINT T$
 0340   IF Z = 54 THEN EXEC HOVED
 0350 NEXT 
 0360 PROC HOVED
 0370   PRINT "<12><14>   * ELEKTRONSTRUKTUR-MODEL *"
 0380   PRINT CHR ( 14 ) ; T$ ; CHR ( 13 ) ; CHR ( 10 ) ; T$
 0390   PRINT " SKAL NR. " ;
 0400   PRINT " ### " , 1 , 2 , 3 , 4 , 5 , 6 , 7 , 8
 0410   PRINT " ATOM NR.   " ;
 0420   PRINT " ### " , "K" , "L" , "M" , "N" , "O" , "P" , "Q" , "R"
 0430   PRINT T$
 0440 ENDPROC
 0450 STOP  «nul»

UDAS Segment

    FNA definition = 0xffff
    FNB definition = 0xffff
    FNC definition = 0xffff
    FND definition = 0xffff
    FNE definition = 0xffff
    FNF definition = 0xffff
    FNG definition = 0xffff
    FNH definition = 0xffff
    FNI definition = 0xffff
    FNJ definition = 0xffff
    FNK definition = 0xffff
    FNL definition = 0xffff
    FNM definition = 0xffff
    FNN definition = 0xffff
    FNO definition = 0xffff
    FNP definition = 0xffff
    FNQ definition = 0xffff
    FNR definition = 0xffff
    FNS definition = 0xffff
    FNT definition = 0xffff
    FNU definition = 0xffff
    FNV definition = 0xffff
    FNW definition = 0xffff
    FNX definition = 0xffff
    FNY definition = 0xffff
    FNZ definition = 0xffff
    FN[ definition = 0xffff
    FN\ definition = 0xffff
    FN] definition = 0xffff
    GOSUB-RETURN stack pointer = 0x0000
      stack[0] = 0x0000
      stack[1] = 0x0000
      stack[2] = 0x0000
      stack[3] = 0x0000
      stack[4] = 0x0000
      stack[5] = 0x0000
      stack[6] = 0x0000
    FOR-NEXT stack pointer = 0x0000
      Var# = 0x0000
      Loop Top = 0x0000
      To Val = 0   (0x00000000)
      Step Val = 0   (0x00000000)
      Var# = 0x0000
      Loop Top = 0x0000
      To Val = 0   (0x00000000)
      Step Val = 0   (0x00000000)
      Var# = 0x0000
      Loop Top = 0x0000
      To Val = 0   (0x00000000)
      Step Val = 0   (0x00000000)
      Var# = 0x0000
      Loop Top = 0x0000
      To Val = 0   (0x00000000)
      Step Val = 0   (0x00000000)
      Var# = 0x0000
      Loop Top = 0x0000
      To Val = 0   (0x00000000)
      Step Val = 0   (0x00000000)
      Var# = 0x0000
      Loop Top = 0x0000
      To Val = 0   (0x00000000)
      Step Val = 0   (0x00000000)
      Var# = 0x0000
      Loop Top = 0x0000
      To Val = 0   (0x00000000)
      Step Val = 0   (0x00000000)
    REPEAT-UNTIL stack pointer = 0x0000
      stack[0] = 0x0000
      stack[1] = 0x0000
      stack[2] = 0x0000
      stack[3] = 0x0000
      stack[4] = 0x0000
      stack[5] = 0x0000
      stack[6] = 0x0000
    WHILE-ENDWHILE stack pointer = 0x0000
      stack[0] = 0x0000
      stack[1] = 0x0000
      stack[2] = 0x0000
      stack[3] = 0x0000
      stack[4] = 0x0000
      stack[5] = 0x0000
      stack[6] = 0x0000
    IF-ELSE stack pointer = 0x0000
      stack[0] = 0x0000
      stack[1] = 0x0000
      stack[2] = 0x0000
      stack[3] = 0x0000
      stack[4] = 0x0000
      stack[5] = 0x0000
      stack[6] = 0x0000
Variables:
    0x80 0x0000 0x00 
    0x81 0xffff 0x02 T$
    0x82 0xffff 0x00 NN
    0x83 0xffff 0x00 LL
    0x84 0xffff 0x00 AA
    0x85 0xffff 0x00 S
    0x86 0xffff 0x00 J
    0x87 0xffff 0x00 HOVED
    0x88 0xffff 0x00 SUM
    0x89 0xffff 0x00 N
    0x8a 0xffff 0x00 L
    0x8b 0xffff 0x00 Z
    0x8c 0xffff 0x00 A
    0x8d 0xffff 0x00 I
    0x8e 0xffff 0x00 Q
    0x8f 0xffff 0x00 P

Wrapper

.magic = 0x4e32
.u_pas = 0x0273  // Length of UPAS in words
.u_das = 0x00b8  // Length of UDAS in words
.u_dvs = 0x00b8  // Start på savede variabel indhold (word adr)
.u_nds = 0x0000  // Address på næste prog.sætning (word adr)
.u_cps = 0x03e7  // Address på curr prog.sætning (word adr)
.u_tll = 0x0048  // Page størrelse
.u_tts = 0x000e  // TAP størrelse
.u_ran = 0x0001  // Random tal
.u_cdl = 0x0006  // Current DATA sætning ptr
.u_cdb = 0x0000  // Current DATA byte ptr
.u_esa = 0x0042  // ON ESE (word adr)
.u_era = 0x0000  // ON ERR (word adr)
.u_cas = 0xffff  // CASE dybde
.u_las = 0xffff  // last (-1)

DataMuseum.dk

RegneCentralen RC3600/RC7000

⟦432fee27c⟧ COMAL_SAVE

Derivation

UPAS Segment

UDAS Segment

Wrapper