Clean up project
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2
.gitignore
vendored
Normal file
2
.gitignore
vendored
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@ -0,0 +1,2 @@
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benfords-law
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benfords-law.exe
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20
main.go
20
main.go
@ -11,20 +11,22 @@ import (
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)
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const (
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randomMin = 0
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randomMin = 1 // We specify a range which random numbers will be generated, we must start at the first possible left-most digit
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randomMax = 999999999999999999 // int64 max value is 9223372036854775807. We use one digit less than that with all 9's in order to not give bias to any digits.
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numSamples = 100000000 // A nice rounded human number
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)
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func main() {
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results := [9]int{} // There are 9 possible leading digits and 0 does not count, offset by 1 for index to actual value. Examples: To access 1 use [0]. To access 5 use [4]. To access 9 use [8].
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currentSample := 0
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// In results, we store a count of each left most leading digits as numbers are randomly genereated
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results := [9]int{} // There are 9 possible leading digits and 0 does not count, offset by 1 for index to actual value. Examples: To access count for 1 use [0]. To access 5 use [4]. To access 9 use [8].
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currentSample := 0 // A counter that increments each time a random number sample has been generated. Used for status messages
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// Start a little goroutine to output status and attach a ticker to execute it each second
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statusTicker := time.NewTicker(time.Second)
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go func() {
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for {
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<-statusTicker.C
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<-statusTicker.C // Wait for heartbeat from ticker channel
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percentCompleted := (currentSample * 100) / numSamples
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log.Printf("%d%% completed generating and analyzing samples", percentCompleted)
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}
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@ -34,17 +36,19 @@ func main() {
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rand.Seed(time.Now().UnixNano())
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for currentSample = 0; currentSample < numSamples; currentSample++ {
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results[firstDigit(rand.Intn(randomMax-randomMin+1)+randomMin)-1]++ // We must use Intn instead of Int because from Base10's perspective, integers cut off at a really weird spot
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results[firstDigit(rand.Intn(randomMax-randomMin+1)+randomMin)-1]++ // Generate a random number between randomMin and randomMax, get the first digit then increment the counter in results array, remember, it's offset by 1
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}
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// Done generating and counting digits, stop the status ticker
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statusTicker.Stop()
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log.Printf("done.")
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// output results
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for digitMinusOne, count := range results {
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fmt.Printf("%d: %d (%f%%)\n", digitMinusOne+1, count, float64(count*100)/float64(numSamples))
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// Output results
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for digitMinusOne, digitCount := range results {
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fmt.Printf("%d: %d (%f%%)\n", digitMinusOne+1, digitCount, float64(digitCount*100)/float64(numSamples))
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}
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// Wait indefinitely until Enter Key is pressed, avoid terminating terminal before viewing results if ran from a shell
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fmt.Print("Press 'Enter' to continue...")
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bufio.NewReader(os.Stdin).ReadBytes('\n')
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}
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