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问题:
Suppose you have a sorted range (x to y) of values in an array.
x = 3;
y = 11;
array == 3, 4, 5, 6, 7, 8, 9, 10, 11
But it is possible that some values are duplicated and some are missing, so you might have:
array == 4, 5, 5, 5, 7, 8, 9, 10, 10
What's the best way in your language to find all duplicates and missing values so you get:
resultMissingValuesArray == 3, 6, 11
resultDuplicatesArray == 5, 5, 10
Here's some C++ code to get you started:
#include <vector>
#include <iostream>
#include <algorithm>
using namespace std;
const int kLastNumber = 50000; // last number expected in array
const int kFirstNumber = 3; // first number expected in array
int main()
{
vector<int> myVector;
// fill up vector, skip values at the beginning and end to check edge cases
for(int x = kFirstNumber + 5; x < kLastNumber - 5; x++)
{
if(x % 12 != 0 && x % 13 != 0 && x % 17 != 0)
myVector.push_back(x); // skip some values
else if(x % 9 == 0)
{
myVector.push_back(x); // add duplicates
myVector.push_back(x);
}
else if(x % 16 == 0)
{
myVector.push_back(x); // add multiple duplicates
myVector.push_back(x);
myVector.push_back(x);
myVector.push_back(x);
}
}
// put the results in here
vector<int> missingValues;
vector<int> duplicates;
// YOUR CODE GOES HERE
// validate missingValues for false positives
for(int x = 0; x < (int) missingValues.size(); ++x)
{
if(binary_search(myVector.begin(), myVector.end(), missingValues.at(x)))
cout << "Oh noes! You missed an unmissed value. Something went horribly, horribly wrong.";
}
// validate duplicates (I think... errr)
vector<int>::iterator vecItr = myVector.begin();
vector<int>::iterator dupItr = duplicates.begin();
while(dupItr < duplicates.end())
{
vecItr = adjacent_find(vecItr, myVector.end());
if(*vecItr != *dupItr)
cout << "Oh noes! Something went horribly, horribly wrong.";
// oh god
while(++dupItr != duplicates.end() && *(--dupItr) == *(++dupItr) && *vecItr == *(++vecItr));
++vecItr;
}
return 0;
}
I didn't test the validation parts much, so there may be be something wrong with them (especially with the duplicates one).
I will post my own solution as an answer.
回答1:
Since you've marked it language-agnostic, here's the algorithm I'd use.
# Get numbers and sort them in ascending order.
input x,y;
input number[1..n];
sort number[1..n];
# Set dups and missing to empty sets.
dups = [];
missing = [];
# Get edge cases.
if number[1] > x:
foreach i x .. number[1] - 1:
missing.add(i)
if number[n] < y:
foreach i number[n] + 1 .. y:
missing.add(i)
# Process all numbers starting at second one.
foreach i 2 .. n:
# If number same as last and not already in dups set, add it.
if number[i] == number[i-1] and not dups.contains(number[i]):
if number[i] >= x and number[i] <= y:
dups.add(number[i])
# If number not last number plus one, add all between the two
# to missing set.
if number[i] != number[i-1] + 1:
foreach j number[i-1] + 1 .. number[i] - 1:
if j >= x and j <= y:
missing.add(j)
回答2:
my favourite - Python, very simple:
x = 3
y = 11
array = [ 3, 4, 5, 6, 7, 8, 9, 10, 11 ]
test = [ 4, 5, 5, 5, 7, 8, 9, 10, 10 ]
resultMissingValuesArray = set(range(x,y+1)).difference(test)
resultDuplicatesArray = reduce(lambda i,j: i+j, [[n]*(test.count(n)-1) for n in set(test) if test.count(n)>1], [])
duplicates can be more easily found by this line:
resultDuplicatesArray = [n for n in set(test) if test.count(n)>1]
# [5, 10] - just numbers, that have duplicates
# you can use test.count(5) for number of duplicates
回答3:
Ruby:
x = 3
y = 11
array = [ 4, 5, 5, 5, 7, 8, 9, 10, 10 ]
resultMissingValuesArray = (x..y).to_a - array
resultDuplicatesArray = array.delete_if { |e| array.index(e) == array.rindex(e) }.uniq
回答4:
I think that you can do this fast in C++ by setting up a second array that acts as a check to see which elements have been found and then incrementing its elements by one each time an element is found. So:
int array = [3,4,5,6,7,8,9,10,11];
unsigned array_size = 9;
int test = [4,5,5,5,7,8,9,10,10];
// Find the maximum element in array
// This might not be necessary if it's given somewhere
unsigned max = 0;
unsigned min = -1;
for(unsigned i = 0; i < array_size; i++){
if(array[i] > max) max = array[i];
if(array[i] < min) min = array[i];
}
// Go make a counts vector to store how many examples of each value there are
vector< unsigned > counts(max+1, 0);
for(unsigned i = 0; i < array_size; i++)
counts[test[i]]++;
// Gather the unique elements, duplicates and missing elements
vector< unsigned > unique;
vector< unsigned > duplicates;
vector< unsigned > missing;
for(unsigned i = min; i < max + 1; i++){
switch(counts[i]){
case 0 : missing.push_back(i); break;
case 1 : unique.push_back(i); break;
default: duplicates.push_back(i);
}
}
This only works if you have numbers bigger than 0 in your array, which is often the case. The bonus is that it scales linearly in the number of elements, which is useful :-)
回答5:
if(myVector.front() > kFirstNumber)
for(int x = kFirstNumber; x < myVector.at(0); ++x)
if(x >= kFirstNumber && x <= kLastNumber)
missingValues.push_back(x);
for(int x = 1; x < (int) myVector.size(); ++x)
{
if(myVector.at(x) == myVector.at(x - 1))
if(x >= kFirstNumber && x <= kLastNumber)
duplicates.push_back(myVector.at(x));
if(myVector.at(x) != myVector.at(x - 1) + 1)
for(int y = myVector.at(x - 1) + 1; y <= myVector[x] - 1; y++)
if(y >= kFirstNumber && y <= kLastNumber)
missingValues.push_back(y);
}
if(myVector.back() < kLastNumber)
for(int x = myVector.back() + 1; x <= kLastNumber; ++x)
if(x >= kFirstNumber && x <= kLastNumber)
missingValues.push_back(x);
(My solution was pretty ugly, so I replaced it with a C++ implementation of Pax's algorithm.)
回答6:
in python
consecutive=zip(l[0:-1],l[1:])
duplicate=[ a for (a,b) in consecutive if a==b]
missing=reduce(lambda u,v:u+v, [range(a+1,b) for (a,b) in consecutive])
