base:fast_8bit_ranged_random_numbers

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Randomness may be effective, since a random element is chosen from a table that is randomly generated. On the other hand, memory consumption may be quite huge.

The random generator [1…256] I have found on White Flame's page:

lda seed beq doEor clc asl beq noEor ;if the input was $80, skip the EOR bcc noEor doEor eor #$1d noEor sta seed

Now, in order to get random number in a range e.g. between 1 and 6 you can build a table of 256 bytes that is accessed by index with the previously generated random number

tax lda rnd,x rnd .byte $4,$1,$2,$2,$5,$5,$6,$1 .byte $3,$1,$2,$4,$1,$2,$4,$4 ... .byte $3,$4,$4,$6,$2,$5,$2,$3

Such a table of random numbers in TAsm-Format may be generated with a python script:

from random import Random range_lo = 1 range_hi = 7 # ..6 bytes = 256 byte_per_line = 8 g = Random(42) # initialize Wichmann Hill seed r = '' cnt = 0 for i in range(1,bytes,1): cnt = cnt + 1 r = r + '$' + hex(g.randrange(range_lo,range_hi)).lstrip('0x') + ',' if ((cnt % byte_per_line) == 0): print ' .byte ' + r.rstrip(',') r = ''

However, this method has a major drawback: You can't map a set of 256 numbers to an arbitrary range of numbers while keeping the same probability for each number. For example, when you want to get values from 0 to 156 then it is obvious that some numbers would appear twice in your table, while others appear just once. This has of course a huge impact on the randomness of your results. A better, although much slower way to get random numbers in a choosen interval is:

- extend the above described mechanism to create 24-bit random numbers
- multiply the random number with your max. number
- use the highbyte of the result

base/fast_8bit_ranged_random_numbers.1429237909.txt.gz · Last modified: 2015-04-17 04:31 by 127.0.0.1