[R] family question

Thu Aug 31 04:29:41 CEST 2000

I couldn't resist trying to create a swish simulation method for this
problem.

To simulate a single family size I start with a length "basesize"
(defaults to 16) random vector of 1's, representing boys, and -1's,
representing girls, each with 0.50 probability.

The reason for -1 and 1 is because checking for more boys than girls
reduces to checking if the cumulative sum is greater than zero.
(Thanks to Richard Johnson for the suggestion.)  If you do not get a
family with more boys than girls in that sample then you double the
length of the sample and check again.  I impose a limit on the number
of doublings: 13 on a machine with a moderate vsize and 16 on a
machine where I can set vsize = 100M.  (These limits could change
after R-1.2.0 is released (probably in December) because of its new
storage allocation and garbage collection mechanism.)

The function to simulate one family size is

fam <-
    function(basesize = 16, doublings = 16)
{
    ## simulate a family size in Troels Ring's problem
    samp <- ifelse(runif(basesize) > 0.5, 1, -1)
    for (i in 0:doublings) {
        moreboys <- cumsum(samp) > 0
        if (any(moreboys)) return(min(seq(along = moreboys)[moreboys]))
        samp <- c(samp,
                  ifelse(runif(length(samp)) > 0.5, 1, -1))
    }
    return(NA)
}

On the machine where I allowed extremely large family sizes (16
doublings), I got some extremely large sizes 
> gc()            # check the amount of memory allocated
           free    total  (Mb)
Ncells   658984   800000  15.3
Vcells 13062681 13107200 100.0
> famsz <- integer(10000)
> for (i in seq(along = famsz)) famsz[i] <- fam()
> summary(famsz)
    Min.  1st Qu.   Median     Mean  3rd Qu.     Max.     NA's 
     1.0      1.0      1.0    665.7      9.0 832200.0     12.0 

The NA's represent family sizes that would be greater than 2^20.  Note
that there is about a 1 in 1000 chance of that occuring!

Here are the big families
> sort(famsz[famsz > 10000])
 [1]  10285  10379  10485  11337  11623  11669  11747  12185  12273  12335
[11]  13547  14113  14623  15467  15567  16425  20253  20515  21133  22559
[21]  22989  23015  23387  23771  24051  26353  27701  28297  29577  29579
[31]  30071  32207  35971  37669  38419  39185  40457  47893  51383  52869
[41]  66031  68411  71883  74351  75481  77125  83023  91483  92489  92565
[51] 105233 107009 115961 121769 188675 204793 234175 239793 251181 264895
[61] 335125 337655 353795 464961 832211

Even ignoring the really big families (those that are NA's here), the
proportion of females comes out to be essentially 0.5 in this sample

> sum((famsz - 1)/2, na.rm = TRUE)/sum(famsz, na.rm = TRUE)
[1] 0.499249
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