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reverse_integer_test.go
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reverse_integer_test.go
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/*
Problem:
- Given a 64-bit integer, reverse its digits.
Assumption:
- Negative numbers are also valid.
- Must handle the case where the reversed integer is overflow.
Example:
- Input: 123
Output: 321
- Input: -123
Output: -321
- Input: 8085774586302733229 Output: 0
Explanation: The reversed integer 9223372036854775808 overflows by 1 so we return 0.
Approach:
- Use modulo by 10 to get a digit at ones' place of the input and
dividing by 10 to shift it to the right (eliminate the ones' place).
Solution:
- Initialize the output as a 64-bit integer.
- If the input is not zero yet, keep multiply the output and diving the
input by 10 so that: output = (output * 10) + (input % 10) and
input = input / 10.
- Also, remember to check the overflow/underflow of the output and return
0 if necessary.
Cost:
- O(m) time, O(1) space, where m is log10 of the input.
*/
package leetcode
import (
"math"
"testing"
"github.com/hoanhan101/algo/common"
)
func TestReverseInteger(t *testing.T) {
tests := []struct {
in int64
expected int64
}{
{0, 0},
{1, 1},
{10, 1},
{12, 21},
{123, 321},
{-123, -321},
{8085774586302733229, 0},
}
for _, tt := range tests {
result := reverseInteger(tt.in)
common.Equal(t, tt.expected, result)
}
}
func reverseInteger(in int64) int64 {
var out int64
for in != 0 {
// check for overflow/underflow before multiplying by 10.
// if common.Abs(int(out)) > math.MaxInt64/10 {
if common.Abs(int(out)) > math.MaxInt64/10 {
return 0
}
out = out*10 + in%10
in /= 10
}
return out
}