Verify distribution uniformity/Naive: Difference between revisions
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<small>This task is an adjunct to [[Seven-dice from Five-dice]].</small> |
<small>This task is an adjunct to [[Seven-dice from Five-dice]].</small> |
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Create a function to check that the random integers returned from a small-integer generator function have uniform distribution. |
Create a function to check that the random integers returned from a small-integer generator function have uniform distribution. |
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* Some indication of the distribution achieved. |
* Some indication of the distribution achieved. |
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* An 'error' if the distribution is not flat enough. |
* An 'error' if the distribution is not flat enough. |
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Show the distribution checker working when the produced distribution is flat enough and when it is not. (Use a generator from [[Seven-dice from Five-dice]]). |
Show the distribution checker working when the produced distribution is flat enough and when it is not. (Use a generator from [[Seven-dice from Five-dice]]). |
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for key, count in sorted(bin.items()) ] |
for key, count in sorted(bin.items()) ] |
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AssertionError: Bin distribution skewed from 200 +/- 2: [(1, 4), (2, -33), (3, 6), (4, 11), (5, 12)]</pre> |
AssertionError: Bin distribution skewed from 200 +/- 2: [(1, 4), (2, -33), (3, 6), (4, 11), (5, 12)]</pre> |
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=={{header|Tcl}}== |
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<lang tcl>proc distcheck {random times {delta 1}} { |
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for {set i 0} {$i<$times} {incr i} {incr vals([uplevel 1 $random])} |
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set target [expr {$times / [array size vals]}] |
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foreach {k v} [array get vals] { |
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if {abs($v - $target) > $times * $delta / 100.0} { |
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error "distribution potentially skewed for $k: expected around $target, got $v" |
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} |
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} |
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foreach k [lsort -integer [array names vals]] {lappend result $k $vals($k)} |
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return $result |
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}</lang> |
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Demonstration: |
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<lang tcl># First, a uniformly distributed random variable |
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puts [distcheck {expr {int(10*rand())}} 100000] |
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# Now, one that definitely isn't! |
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puts [distcheck {expr {rand()>0.95}} 100000]</lang> |
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Which produces this output (error in red): |
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0 10003 1 9851 2 10058 3 10193 4 10126 5 10002 6 9852 7 9964 8 9957 9 9994 |
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<span style="color:red">distribution potentially skewed for 0: expected around 50000, got 94873</span> |
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Revision as of 06:02, 8 August 2009
You are encouraged to solve this task according to the task description, using any language you may know.
This task is an adjunct to Seven-dice from Five-dice.
Create a function to check that the random integers returned from a small-integer generator function have uniform distribution.
The function should take as arguments:
- The function producing random integers.
- The number of times to call the integer generator.
- A 'delta' value of some sort that indicates how close to a flat distribution is close enough.
The function should produce:
- Some indication of the distribution achieved.
- An 'error' if the distribution is not flat enough.
Show the distribution checker working when the produced distribution is flat enough and when it is not. (Use a generator from Seven-dice from Five-dice).
Python
<lang python>from collections import Counter from pprint import pprint as pp
def distcheck(fn, repeats, delta):
\
Bin the answers to fn() and check bin counts are within +/- delta %
of repeats/bincount
bin = Counter(fn() for i in range(repeats))
target = repeats // len(bin)
deltacount = int(delta / 100. * target)
assert all( abs(target - count) < deltacount
for count in bin.values() ), "Bin distribution skewed from %i +/- %i: %s" % (
target, deltacount, [ (key, target - count)
for key, count in sorted(bin.items()) ]
)
pp(dict(bin))</lang>
Sample output:
>>> distcheck(dice5, 1000000, 1)
{1: 200244, 2: 199831, 3: 199548, 4: 199853, 5: 200524}
>>> distcheck(dice5, 1000, 1)
Traceback (most recent call last):
File "<pyshell#30>", line 1, in <module>
distcheck(dice5, 1000, 1)
File "C://Paddys/rand7fromrand5.py", line 54, in distcheck
for key, count in sorted(bin.items()) ]
AssertionError: Bin distribution skewed from 200 +/- 2: [(1, 4), (2, -33), (3, 6), (4, 11), (5, 12)]
Tcl
<lang tcl>proc distcheck {random times {delta 1}} {
for {set i 0} {$i<$times} {incr i} {incr vals([uplevel 1 $random])}
set target [expr {$times / [array size vals]}]
foreach {k v} [array get vals] {
if {abs($v - $target) > $times * $delta / 100.0} {
error "distribution potentially skewed for $k: expected around $target, got $v"
}
}
foreach k [lsort -integer [array names vals]] {lappend result $k $vals($k)}
return $result
}</lang> Demonstration: <lang tcl># First, a uniformly distributed random variable puts [distcheck {expr {int(10*rand())}} 100000]
- Now, one that definitely isn't!
puts [distcheck {expr {rand()>0.95}} 100000]</lang> Which produces this output (error in red):
0 10003 1 9851 2 10058 3 10193 4 10126 5 10002 6 9852 7 9964 8 9957 9 9994
distribution potentially skewed for 0: expected around 50000, got 94873