mathplotdosastronomygw-basic

How to print output of .bas file to text


I am trying to print coordinate outputs of a program to a text file in order to use it in another program but I don't really know anything about GWBASIC and its my first time using MS-DOS. I need it to open a text file named plot.txt and print output there and save it without actually plotting on GWBASIC. Here is the program which I found in an old magazine.

810 REM   MAKE A GLOBULAR
12 REM
14 R0=20: R2=R0*R0: R3=R2*R0
16 P1=3.14159265#
18 C0=P1*P1*R3/4
20 R1=R0/SQR(2)
22 XM=512: YM=512
24 X2=XM/2: Y2=YM/2: S=5
26 INPUT "HOW MANY STARS ";T
27 RANDOMIZE TIMER
28 CLS: REM  CLEAR SCREEN
30 FOR I=1 TO T
32 C=C0*RND: R=R1
34 REM
36 REM   NOW FIND R
38 FOR K=1 TO 5
40 GOSUB 100
42 R=R+(C-C1)/D
44 NEXT K
46 REM  3-DIMENSIONAL PLACE
48 X=RND-.5
50 Y=RND-.5
52 Z=RND-.5
54 S1=SQR(X*X+Y*Y+Z*Z)
56 IF S1>.5 THEN GOTO 48
58 REM  POINT IS NOW IN SPHERE
60 R=R*S1: X=X*R: Y=Y*R: Z=Z*R
62 GOSUB 200
64 NEXT I
66 END
68 REM
100 REM  NEWTON-RAPHSON ITERATION
105 A=R/R0
110 C1=ATN(A)*.5*R3
115 A=1+A*A
120 C1=C1+R*.5*R2/A
125 C1=P1*(C1-R*R2/(A*A))
130 D=4*P1*R*R/(A*A*A)
135 RETURN
140 REM
200 REM  2-DIMENSIONAL PLOT
203 SCREEN 9
205 X=X*S+X2: Y=Y*S+Y2
210 IF X<0 OR Y<0 THEN 225
215 IF X>=XM OR Y>=YM THEN 225
220 PSET(X,Y)
225 RETURN
230 REM  ------------------------
240 REM  APPEARED IN ASTRONOMICAL
250 REM  COMPUTING, SKY & TELE-
260 REM  SCOPE, APRIL, 1986
270 REM  ------------------------

Solution

  • Here is a Python 3 paraphrase:

    #globular.py
    #Python paraphrase of model.bas from
    #http://www.skyandtelescope.com/wp-content/uploads/model.bas
    
    from math import pi, sqrt, atan
    from random import uniform, random
    
    #Global variables:
    
    r0 = 20.0
    r2 = r0**2
    r3 = r0**3
    c0 = pi**2*r3/4
    r1 = r0/sqrt(2)
    
    def NRI(c,r):
        #Newton-Raphson Iteration
        a = r/r0
        c1 = atan(a)*0.5*r3
        a = 1+a**2
        c1 += r*0.5*r2/a
        c1 = pi*(c1-r*r2/a**2)
        d = 4*pi*r**2/a**3
        return (c1,d)
    
    def makeStars(t):
        stars = []
        for i in range(t):
            c = c0*random()
            r = r1
            for k in range(5):
                c1,d = NRI(c,r)
                r += (c-c1)/d
            while True:
                x = uniform(-0.5,0.5)
                y = uniform(-0.5,0.5)
                z = uniform(-0.5,0.5)
                s1 = sqrt(x**2 + y**2 + z**2)
                if s1 <= 0.5: break
            r *= s1
            x *= r
            y *= r
            z *= r
            stars.append((x,y,z))
        return stars
    
    def starsToFile(t,fname):
        stars = makeStars(t)
        f = open(fname,'w')
        for star in stars:
            print(*star, sep = ', ',file = f)
        f.close()
    

    I skipped the part about printing x and y and instead wrote a function makeStars to return a list of (x,y,z) tuples, as well as a related function which takes such an output and sends it to a text file. This last function is the only thing that used Python 3 instead of Python 2. If you are using Python 2 you can import Python 3's print function from the future.

    Typing starsToFile(100,'stars.txt') in the Python shell gave me a text file which begins:

    -0.32838465248713156, -0.3294895266926551, -1.2963580524762535
    14.20224408569865, 1.4434961933043464, 6.450969593697097
    1.6525937589658193, -0.24447292610082685, 1.0543647986350608
    1.5707528567123823, 5.190972598268825, -2.0054790217091134
    

    I don't have good 3-d scatter-plot graphing at my finger tips, but here is a screen shot of 50 points generated by the function and plotted using a computer algebra system called Derive:

    enter image description here

    Final remark: I wonder if there is a typo in the source code. The line

    C0=P1*P1*R3/4
    

    strikes me as suspicious since it is fairly rare in mathematics for pi to appear squared -- though it does happen. Maybe there should be only 1 factor of pi there (which would then have the effect of setting C0 proportional to the volume of the sphere of radius R0). On the other hand, I don't know exactly what is happening here, so I left it in. If the results seem problematic, you could maybe experiment with that line.