Fraction reduction: Difference between revisions
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Took 2m24.172745543s |
Took 2m24.172745543s |
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</pre> |
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=={{header|Julia}}== |
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<lang julia>using Combinatorics |
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toi(set) = parse(Int, join(set, "")) |
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drop1(c, set) = toi(filter(x -> x != c, set)) |
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function anomalouscancellingfractions(numdigits) |
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ret = Vector{Tuple{Int, Int, Int, Int, Int}}() |
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for nset in permutations(1:9, numdigits), dset in permutations(1:9, numdigits) |
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if nset < dset # only proper fractions |
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for c in nset |
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if c in dset # a common digit exists |
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n, d, nn, dd = toi(nset), toi(dset), drop1(c, nset), drop1(c, dset) |
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if n // d == nn // dd # anomalous cancellation |
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push!(ret, (n, d, nn, dd, c)) |
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end |
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end |
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end |
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end |
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end |
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ret |
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end |
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function testfractionreduction(maxdigits=5) |
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for i in 2:maxdigits |
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results = anomalouscancellingfractions(i) |
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println("\nFor $i digits, there were ", length(results), |
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" fractions with anomalous cancellation.") |
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numcounts = zeros(Int, 9) |
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for r in results |
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numcounts[r[5]] += 1 |
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end |
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for (j, count) in enumerate(numcounts) |
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count > 0 && println("The digit $j was crossed out $count times.") |
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end |
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println("Examples:") |
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for j in 1:min(length(results), 12) |
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r = results[j] |
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println(r[1], "/", r[2], " = ", r[3], "/", r[4], " ($(r[5]) crossed out)") |
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end |
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end |
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end |
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testfractionreduction() |
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</lang julia>{{out}} |
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<pre> |
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For 2 digits, there were 4 fractions with anomalous cancellation. |
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The digit 6 was crossed out 2 times. |
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The digit 9 was crossed out 2 times. |
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Examples: |
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16/64 = 1/4 (6 crossed out) |
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19/95 = 1/5 (9 crossed out) |
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26/65 = 2/5 (6 crossed out) |
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49/98 = 4/8 (9 crossed out) |
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For 3 digits, there were 122 fractions with anomalous cancellation. |
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The digit 3 was crossed out 9 times. |
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The digit 4 was crossed out 1 times. |
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The digit 5 was crossed out 6 times. |
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The digit 6 was crossed out 15 times. |
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The digit 7 was crossed out 16 times. |
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The digit 8 was crossed out 15 times. |
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The digit 9 was crossed out 60 times. |
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Examples: |
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132/231 = 12/21 (3 crossed out) |
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134/536 = 14/56 (3 crossed out) |
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134/938 = 14/98 (3 crossed out) |
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136/238 = 16/28 (3 crossed out) |
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138/345 = 18/45 (3 crossed out) |
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139/695 = 13/65 (9 crossed out) |
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143/341 = 13/31 (4 crossed out) |
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146/365 = 14/35 (6 crossed out) |
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149/298 = 14/28 (9 crossed out) |
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149/596 = 14/56 (9 crossed out) |
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149/894 = 14/84 (9 crossed out) |
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154/253 = 14/23 (5 crossed out) |
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For 4 digits, there were 660 fractions with anomalous cancellation. |
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The digit 1 was crossed out 14 times. |
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The digit 2 was crossed out 25 times. |
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The digit 3 was crossed out 92 times. |
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The digit 4 was crossed out 14 times. |
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The digit 5 was crossed out 29 times. |
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The digit 6 was crossed out 63 times. |
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The digit 7 was crossed out 16 times. |
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The digit 8 was crossed out 17 times. |
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The digit 9 was crossed out 390 times. |
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Examples: |
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1234/4936 = 124/496 (3 crossed out) |
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1239/6195 = 123/615 (9 crossed out) |
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1246/3649 = 126/369 (4 crossed out) |
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1249/2498 = 124/248 (9 crossed out) |
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1259/6295 = 125/625 (9 crossed out) |
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1279/6395 = 127/635 (9 crossed out) |
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1283/5132 = 128/512 (3 crossed out) |
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1297/2594 = 127/254 (9 crossed out) |
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1297/3891 = 127/381 (9 crossed out) |
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1298/2596 = 128/256 (9 crossed out) |
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1298/3894 = 128/384 (9 crossed out) |
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1298/5192 = 128/512 (9 crossed out) |
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For 5 digits, there were 5087 fractions with anomalous cancellation. |
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The digit 1 was crossed out 75 times. |
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The digit 2 was crossed out 40 times. |
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The digit 3 was crossed out 376 times. |
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The digit 4 was crossed out 78 times. |
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The digit 5 was crossed out 209 times. |
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The digit 6 was crossed out 379 times. |
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The digit 7 was crossed out 591 times. |
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The digit 8 was crossed out 351 times. |
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The digit 9 was crossed out 2988 times. |
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Examples: |
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12349/24698 = 1234/2468 (9 crossed out) |
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12356/67958 = 1236/6798 (5 crossed out) |
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12358/14362 = 1258/1462 (3 crossed out) |
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12358/15364 = 1258/1564 (3 crossed out) |
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12358/17368 = 1258/1768 (3 crossed out) |
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12358/19372 = 1258/1972 (3 crossed out) |
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12358/21376 = 1258/2176 (3 crossed out) |
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12358/25384 = 1258/2584 (3 crossed out) |
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12359/61795 = 1235/6175 (9 crossed out) |
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12364/32596 = 1364/3596 (2 crossed out) |
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12379/61895 = 1237/6185 (9 crossed out) |
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12386/32654 = 1386/3654 (2 crossed out) |
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</pre> |
</pre> |
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Revision as of 04:27, 6 September 2019
There is a fine line between numerator and denominator. ─── anonymous
A method to "reduce" some reducible fractions is to cross out a digit from the numerator and the denominator. An example is:
16 16──── and then (simply) cross─out the sixes: ──── 6464
resulting in:
1 ─── 4
Naturally, this "method" of reduction must reduce to the proper value (shown as a fraction).
This "method" is also known as anomalous cancellation and also accidental cancellation.
(Of course, this "method" shouldn't be taught to impressionable or gullible minds.) 😇
- Task
Find and show some fractions that can be reduced by the above "method".
- show 2-digit fractions found (like the example shown above)
- show 3-digit fractions
- show 4-digit fractions
- show 5-digit fractions (and higher) (optional)
- show each (above) n-digit fractions separately from other different n-sized fractions, don't mix different "sizes" together
- for each "size" fraction, only show a dozen examples (the 1st twelve found)
- (it's recognized that not every programming solution will have the same generation algorithm)
- for each "size" fraction:
- show a count of how many reducible fractions were found. The example (above) is size 2
- show a count of which digits were crossed out (one line for each different digit)
- for each "size" fraction, show a count of how many were found. The example (above) is size 2
- show each n-digit example (to be shown on one line):
- show each n-digit fraction
- show each reduced n-digit fraction
- show what digit was crossed out for the numerator and the denominator
- Task requirements/restrictions
-
- only proper fractions and their reductions (the result) are to be used (no vulgar fractions)
- only positive fractions are to be used (no negative signs anywhere)
- only base ten integers are to be used for the numerator and denominator
- no zeros (decimal digit) can be used within the numerator or the denominator
- the numerator and denominator should be composed of the same number of digits
- no digit can be repeated in the numerator
- no digit can be repeated in the denominator
- (naturally) there should be a shared decimal digit in the numerator and the denominator
- fractions can be shown as 16/64 (for example)
Show all output here, on this page.
- Somewhat related task
-
- Farey sequence (It concerns fractions.)
- References
-
- Wikipedia entry: proper and improper fractions.
- Wikipedia entry: anomalous cancellation and/or accidental cancellation.
Go
This isn't particularly fast taking just under 2.5 minutes (all but a few seconds on the 5-digit fractions) to complete on my Celeron @1.6GHz. It would, of course, be much quicker on a modern machine. <lang go>package main
import "fmt" import "time"
func indexOf(n int, s []int) int {
for i, j := range s { if n == j { return i } } return -1
}
func getDigits(n, le int, digits []int) bool {
for n > 0 { r := n % 10 if r == 0 || indexOf(r, digits) >= 0 { return false } le-- digits[le] = r n /= 10 } return true
}
var pows = [4]int{1, 10, 100, 1000}
func removeDigit(digits []int, le, idx int) int {
sum := 0 pow := pows[le-2] for i := 0; i < le; i++ { if i == idx { continue } sum += digits[i] * pow pow /= 10 } return sum
}
func main() {
start := time.Now() lims := [4][3]int{ {12, 97, 98}, {123, 986, 987}, {1234, 9875, 9876}, {12345, 98764, 98765}, } var count [4]int var omitted [4][10]int for i, lim := range lims { nDigits := make([]int, i+2) dDigits := make([]int, i+2) blank := make([]int, i+2) for n := lim[0]; n <= lim[1]; n++ { copy(nDigits, blank) nOk := getDigits(n, i+2, nDigits) if !nOk { continue } for d := n + 1; d <= lim[2]; d++ { copy(dDigits, blank) dOk := getDigits(d, i+2, dDigits) if !dOk { continue } for nix, digit := range nDigits { if dix := indexOf(digit, dDigits); dix >= 0 { rn := removeDigit(nDigits, i+2, nix) rd := removeDigit(dDigits, i+2, dix) if float64(n)/float64(d) == float64(rn)/float64(rd) { count[i]++ omitted[i][digit]++ if count[i] <= 12 { fmt.Printf("%d/%d = %d/%d by omitting %d's\n", n, d, rn, rd, digit) } } } } } } fmt.Println() }
for i := 2; i <= 5; i++ { fmt.Printf("There are %d %d-digit fractions of which:\n", count[i-2], i) for j := 1; j <= 9; j++ { if omitted[i-2][j] == 0 { continue } fmt.Printf("%6d have %d's omitted\n", omitted[i-2][j], j) } fmt.Println() } fmt.Printf("Took %s\n", time.Since(start))
}</lang>
- Output:
16/64 = 1/4 by omitting 6's 19/95 = 1/5 by omitting 9's 26/65 = 2/5 by omitting 6's 49/98 = 4/8 by omitting 9's 132/231 = 12/21 by omitting 3's 134/536 = 14/56 by omitting 3's 134/938 = 14/98 by omitting 3's 136/238 = 16/28 by omitting 3's 138/345 = 18/45 by omitting 3's 139/695 = 13/65 by omitting 9's 143/341 = 13/31 by omitting 4's 146/365 = 14/35 by omitting 6's 149/298 = 14/28 by omitting 9's 149/596 = 14/56 by omitting 9's 149/894 = 14/84 by omitting 9's 154/253 = 14/23 by omitting 5's 1234/4936 = 124/496 by omitting 3's 1239/6195 = 123/615 by omitting 9's 1246/3649 = 126/369 by omitting 4's 1249/2498 = 124/248 by omitting 9's 1259/6295 = 125/625 by omitting 9's 1279/6395 = 127/635 by omitting 9's 1283/5132 = 128/512 by omitting 3's 1297/2594 = 127/254 by omitting 9's 1297/3891 = 127/381 by omitting 9's 1298/2596 = 128/256 by omitting 9's 1298/3894 = 128/384 by omitting 9's 1298/5192 = 128/512 by omitting 9's 12349/24698 = 1234/2468 by omitting 9's 12356/67958 = 1236/6798 by omitting 5's 12358/14362 = 1258/1462 by omitting 3's 12358/15364 = 1258/1564 by omitting 3's 12358/17368 = 1258/1768 by omitting 3's 12358/19372 = 1258/1972 by omitting 3's 12358/21376 = 1258/2176 by omitting 3's 12358/25384 = 1258/2584 by omitting 3's 12359/61795 = 1235/6175 by omitting 9's 12364/32596 = 1364/3596 by omitting 2's 12379/61895 = 1237/6185 by omitting 9's 12386/32654 = 1386/3654 by omitting 2's There are 4 2-digit fractions of which: 2 have 6's omitted 2 have 9's omitted There are 122 3-digit fractions of which: 9 have 3's omitted 1 have 4's omitted 6 have 5's omitted 15 have 6's omitted 16 have 7's omitted 15 have 8's omitted 60 have 9's omitted There are 660 4-digit fractions of which: 14 have 1's omitted 25 have 2's omitted 92 have 3's omitted 14 have 4's omitted 29 have 5's omitted 63 have 6's omitted 16 have 7's omitted 17 have 8's omitted 390 have 9's omitted There are 5087 5-digit fractions of which: 75 have 1's omitted 40 have 2's omitted 376 have 3's omitted 78 have 4's omitted 209 have 5's omitted 379 have 6's omitted 591 have 7's omitted 351 have 8's omitted 2988 have 9's omitted Took 2m24.172745543s
Julia
<lang julia>using Combinatorics
toi(set) = parse(Int, join(set, "")) drop1(c, set) = toi(filter(x -> x != c, set))
function anomalouscancellingfractions(numdigits)
ret = Vector{Tuple{Int, Int, Int, Int, Int}}() for nset in permutations(1:9, numdigits), dset in permutations(1:9, numdigits) if nset < dset # only proper fractions for c in nset if c in dset # a common digit exists n, d, nn, dd = toi(nset), toi(dset), drop1(c, nset), drop1(c, dset) if n // d == nn // dd # anomalous cancellation push!(ret, (n, d, nn, dd, c)) end end end end end ret
end
function testfractionreduction(maxdigits=5)
for i in 2:maxdigits results = anomalouscancellingfractions(i) println("\nFor $i digits, there were ", length(results), " fractions with anomalous cancellation.") numcounts = zeros(Int, 9) for r in results numcounts[r[5]] += 1 end for (j, count) in enumerate(numcounts) count > 0 && println("The digit $j was crossed out $count times.") end println("Examples:") for j in 1:min(length(results), 12) r = results[j] println(r[1], "/", r[2], " = ", r[3], "/", r[4], " ($(r[5]) crossed out)") end end
end
testfractionreduction()
</lang julia>
- Output:
For 2 digits, there were 4 fractions with anomalous cancellation. The digit 6 was crossed out 2 times. The digit 9 was crossed out 2 times. Examples: 16/64 = 1/4 (6 crossed out) 19/95 = 1/5 (9 crossed out) 26/65 = 2/5 (6 crossed out) 49/98 = 4/8 (9 crossed out) For 3 digits, there were 122 fractions with anomalous cancellation. The digit 3 was crossed out 9 times. The digit 4 was crossed out 1 times. The digit 5 was crossed out 6 times. The digit 6 was crossed out 15 times. The digit 7 was crossed out 16 times. The digit 8 was crossed out 15 times. The digit 9 was crossed out 60 times. Examples: 132/231 = 12/21 (3 crossed out) 134/536 = 14/56 (3 crossed out) 134/938 = 14/98 (3 crossed out) 136/238 = 16/28 (3 crossed out) 138/345 = 18/45 (3 crossed out) 139/695 = 13/65 (9 crossed out) 143/341 = 13/31 (4 crossed out) 146/365 = 14/35 (6 crossed out) 149/298 = 14/28 (9 crossed out) 149/596 = 14/56 (9 crossed out) 149/894 = 14/84 (9 crossed out) 154/253 = 14/23 (5 crossed out) For 4 digits, there were 660 fractions with anomalous cancellation. The digit 1 was crossed out 14 times. The digit 2 was crossed out 25 times. The digit 3 was crossed out 92 times. The digit 4 was crossed out 14 times. The digit 5 was crossed out 29 times. The digit 6 was crossed out 63 times. The digit 7 was crossed out 16 times. The digit 8 was crossed out 17 times. The digit 9 was crossed out 390 times. Examples: 1234/4936 = 124/496 (3 crossed out) 1239/6195 = 123/615 (9 crossed out) 1246/3649 = 126/369 (4 crossed out) 1249/2498 = 124/248 (9 crossed out) 1259/6295 = 125/625 (9 crossed out) 1279/6395 = 127/635 (9 crossed out) 1283/5132 = 128/512 (3 crossed out) 1297/2594 = 127/254 (9 crossed out) 1297/3891 = 127/381 (9 crossed out) 1298/2596 = 128/256 (9 crossed out) 1298/3894 = 128/384 (9 crossed out) 1298/5192 = 128/512 (9 crossed out) For 5 digits, there were 5087 fractions with anomalous cancellation. The digit 1 was crossed out 75 times. The digit 2 was crossed out 40 times. The digit 3 was crossed out 376 times. The digit 4 was crossed out 78 times. The digit 5 was crossed out 209 times. The digit 6 was crossed out 379 times. The digit 7 was crossed out 591 times. The digit 8 was crossed out 351 times. The digit 9 was crossed out 2988 times. Examples: 12349/24698 = 1234/2468 (9 crossed out) 12356/67958 = 1236/6798 (5 crossed out) 12358/14362 = 1258/1462 (3 crossed out) 12358/15364 = 1258/1564 (3 crossed out) 12358/17368 = 1258/1768 (3 crossed out) 12358/19372 = 1258/1972 (3 crossed out) 12358/21376 = 1258/2176 (3 crossed out) 12358/25384 = 1258/2584 (3 crossed out) 12359/61795 = 1235/6175 (9 crossed out) 12364/32596 = 1364/3596 (2 crossed out) 12379/61895 = 1237/6185 (9 crossed out) 12386/32654 = 1386/3654 (2 crossed out)
Perl 6
<lang perl6>my %reduced; my $digits = 2..4;
for $digits.map: * - 1 -> $exp {
my $start = sum (0..$exp).map( { 10 ** $_ * ($exp - $_ + 1) }); my $end = 10**($exp+1) - sum (^$exp).map( { 10 ** $_ * ($exp - $_) } ) - 1;
($start ..^ $end).race(:8degree, :3batch).map: -> $den { next if $den.contains: '0'; next if $den.comb.unique <= $exp;
for $start ..^ $den -> $num { next if $num.contains: '0'; next if $num.comb.unique <= $exp;
my $set = ($den.comb.head(* - 1).Set ∩ $num.comb.skip(1).Set); next if $set.elems < 1;
for $set.keys { my $ne = $num.trans: $_ => , :delete; my $de = $den.trans: $_ => , :delete; if $ne / $de == $num / $den { print "\b" x 40, "$num/$den:$_ => $ne/$de"; %reduced{"$num/$den:$_"} = "$ne/$de"; } } } }
print "\b" x 40, ' ' x 40, "\b" x 40;
my $digit = $exp +1; my %d = %reduced.pairs.grep: { .key.chars == ($digit * 2 + 3) }; say "\n({+%d}) $digit digit reduceable fractions:"; for 1..9 { my $cnt = +%d.pairs.grep( *.key.contains: ":$_" ); next unless $cnt; say " $cnt with removed $_"; } say "\n 12 Random (or all, if less) $digit digit reduceable fractions:"; say " {.key.substr(0, $digit * 2 + 1)} => {.value} removed {.key.substr(* - 1)}" for %d.pairs.pick(12).sort;
}</lang>
- Sample output:
(4) 2 digit reduceable fractions: 2 with removed 6 2 with removed 9 12 Random (or all, if less) 2 digit reduceable fractions: 16/64 => 1/4 removed 6 19/95 => 1/5 removed 9 26/65 => 2/5 removed 6 49/98 => 4/8 removed 9 (122) 3 digit reduceable fractions: 9 with removed 3 1 with removed 4 6 with removed 5 15 with removed 6 16 with removed 7 15 with removed 8 60 with removed 9 12 Random (or all, if less) 3 digit reduceable fractions: 149/298 => 14/28 removed 9 154/352 => 14/32 removed 5 165/264 => 15/24 removed 6 176/275 => 16/25 removed 7 187/286 => 17/26 removed 8 194/291 => 14/21 removed 9 286/385 => 26/35 removed 8 286/682 => 26/62 removed 8 374/572 => 34/52 removed 7 473/572 => 43/52 removed 7 492/984 => 42/84 removed 9 594/693 => 54/63 removed 9 (660) 4 digit reduceable fractions: 14 with removed 1 25 with removed 2 92 with removed 3 14 with removed 4 29 with removed 5 63 with removed 6 16 with removed 7 17 with removed 8 390 with removed 9 12 Random (or all, if less) 4 digit reduceable fractions: 1348/4381 => 148/481 removed 3 1598/3196 => 158/316 removed 9 1783/7132 => 178/712 removed 3 1978/5934 => 178/534 removed 9 2971/5942 => 271/542 removed 9 2974/5948 => 274/548 removed 9 3584/4592 => 384/492 removed 5 3791/5798 => 391/598 removed 7 3968/7936 => 368/736 removed 9 4329/9324 => 429/924 removed 3 4936/9872 => 436/872 removed 9 6327/8325 => 627/825 removed 3
REXX
<lang rexx>/*REXX pgm reduces fractions by "crossing out" matching digits in nominator&denominator.*/ parse arg high show . /*obtain optional arguments from the CL*/ if high== | high=="," then high= 4 /*Not specified? Then use the default.*/ if show== | show=="," then show= 12 /* " " " " " " */ say center(' some samples of reduced fractions by crossing out digits ', 79, "═") $.=0 /*placeholder array for counts; init. 0*/
do L=2 to high; say /*do 2-dig fractions to HIGH-dig fract.*/ lim= 10**L - 1 /*calculate the upper limit just once. */ do n=10**(L-1) to lim /*generate some N digit fractions. */ if pos(0, n) \==0 then iterate /*Does it have a zero? Then skip it.*/ if hasDup(n) then iterate /* " " " " dup? " " " */
do d=n+1 to lim /*only process like-sized #'s */ if pos(0, d)\==0 then iterate /*Have a zero? Then skip it. */ if verify(d, n, 'M')==0 then iterate /*No digs in common? Skip it.*/ if hasDup(d) then iterate /*Any digs are dups? " " */ q= n/d /*compute quotient just once. */ do e=1 for L; xo= substr(n, e, 1) /*try crossing out each digit.*/ nn= space( translate(n, , xo), 0) /*elide from the numerator. */ dd= space( translate(d, , xo), 0) /* " " " denominator. */ if nn/dd \== q then iterate /*Not the same quotient? Skip.*/ $.L= $.L + 1 /*Eureka! We found one. */ $.L.xo= $.L.xo + 1 /*count the silly reduction. */ if $.L>show then iterate /*Too many found? Don't show.*/ say center(n'/'d " = " nn'/'dd " by crossing out the" xo"'s.", 79) end /*e*/ end /*d*/ end /*n*/ end /*L*/
say; @with= ' with crossed-out' /* [↓] show counts for any reductions.*/
do k=1 for 9 /*traipse through each cross─out digit.*/ if $.k==0 then iterate /*Is this a zero count? Then skip it. */ say; say center('There are ' $.k " "k'-digit fractions.', 79, "═") @for= ' For ' /*literal for SAY indentation (below). */ do #=1 for 9; if $.k.#==0 then iterate say @for k"-digit fractions, there are " right($.k.#, k-1) @with #"'s." end /*#*/ end /*k*/
exit /*stick a fork in it, we're all done. */ /*──────────────────────────────────────────────────────────────────────────────────────*/ hasDup: parse arg x; /* if L<2 then return 0 */ /*L will never be 1.*/
do i=1 for L-1; if pos(substr(x,i,1), substr(x,i+1)) \== 0 then return 1 end /*i*/; return 0</lang>
- output when using the input of: 5 12
══════════ some samples of reduced fractions by crossing out digits ═══════════ 16/64 = 1/4 by crossing out the 6's. 19/95 = 1/5 by crossing out the 9's. 26/65 = 2/5 by crossing out the 6's. 49/98 = 4/8 by crossing out the 9's. 132/231 = 12/21 by crossing out the 3's. 134/536 = 14/56 by crossing out the 3's. 134/938 = 14/98 by crossing out the 3's. 136/238 = 16/28 by crossing out the 3's. 138/345 = 18/45 by crossing out the 3's. 139/695 = 13/65 by crossing out the 9's. 143/341 = 13/31 by crossing out the 4's. 146/365 = 14/35 by crossing out the 6's. 149/298 = 14/28 by crossing out the 9's. 149/596 = 14/56 by crossing out the 9's. 149/894 = 14/84 by crossing out the 9's. 154/253 = 14/23 by crossing out the 5's. 1234/4936 = 124/496 by crossing out the 3's. 1239/6195 = 123/615 by crossing out the 9's. 1246/3649 = 126/369 by crossing out the 4's. 1249/2498 = 124/248 by crossing out the 9's. 1259/6295 = 125/625 by crossing out the 9's. 1279/6395 = 127/635 by crossing out the 9's. 1283/5132 = 128/512 by crossing out the 3's. 1297/2594 = 127/254 by crossing out the 9's. 1297/3891 = 127/381 by crossing out the 9's. 1298/2596 = 128/256 by crossing out the 9's. 1298/3894 = 128/384 by crossing out the 9's. 1298/5192 = 128/512 by crossing out the 9's. 12349/24698 = 1234/2468 by crossing out the 9's. 12356/67958 = 1236/6798 by crossing out the 5's. 12358/14362 = 1258/1462 by crossing out the 3's. 12358/15364 = 1258/1564 by crossing out the 3's. 12358/17368 = 1258/1768 by crossing out the 3's. 12358/19372 = 1258/1972 by crossing out the 3's. 12358/21376 = 1258/2176 by crossing out the 3's. 12358/25384 = 1258/2584 by crossing out the 3's. 12359/61795 = 1235/6175 by crossing out the 9's. 12364/32596 = 1364/3596 by crossing out the 2's. 12379/61895 = 1237/6185 by crossing out the 9's. 12386/32654 = 1386/3654 by crossing out the 2's. ═══════════════════════There are 4 2-digit fractions.════════════════════════ For 2-digit fractions, there are 2 with crossed-out 6's. For 2-digit fractions, there are 2 with crossed-out 9's. ══════════════════════There are 122 3-digit fractions.═══════════════════════ For 3-digit fractions, there are 9 with crossed-out 3's. For 3-digit fractions, there are 1 with crossed-out 4's. For 3-digit fractions, there are 6 with crossed-out 5's. For 3-digit fractions, there are 15 with crossed-out 6's. For 3-digit fractions, there are 16 with crossed-out 7's. For 3-digit fractions, there are 15 with crossed-out 8's. For 3-digit fractions, there are 60 with crossed-out 9's. ══════════════════════There are 660 4-digit fractions.═══════════════════════ For 4-digit fractions, there are 14 with crossed-out 1's. For 4-digit fractions, there are 25 with crossed-out 2's. For 4-digit fractions, there are 92 with crossed-out 3's. For 4-digit fractions, there are 14 with crossed-out 4's. For 4-digit fractions, there are 29 with crossed-out 5's. For 4-digit fractions, there are 63 with crossed-out 6's. For 4-digit fractions, there are 16 with crossed-out 7's. For 4-digit fractions, there are 17 with crossed-out 8's. For 4-digit fractions, there are 390 with crossed-out 9's. ══════════════════════There are 5087 5-digit fractions.══════════════════════ For 5-digit fractions, there are 75 with crossed-out 1's. For 5-digit fractions, there are 40 with crossed-out 2's. For 5-digit fractions, there are 376 with crossed-out 3's. For 5-digit fractions, there are 78 with crossed-out 4's. For 5-digit fractions, there are 209 with crossed-out 5's. For 5-digit fractions, there are 379 with crossed-out 6's. For 5-digit fractions, there are 591 with crossed-out 7's. For 5-digit fractions, there are 351 with crossed-out 8's. For 5-digit fractions, there are 2988 with crossed-out 9's.