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1 | 1 | packagecom.fishercoder.solutions; |
2 | 2 |
|
3 | | -importjava.util.Arrays; |
4 | | -importjava.util.Comparator; |
| 3 | +importjava.util.*; |
5 | 4 |
|
6 | | -/** |
7 | | - * 179. Largest Number |
8 | | -
|
9 | | - Given a list of non negative integers, arrange them such that they form the largest number. |
10 | | -
|
11 | | - Example 1: |
12 | | -
|
13 | | - Input: [10,2] |
14 | | - Output: "210" |
15 | | -
|
16 | | - Example 2: |
17 | | -
|
18 | | - Input: [3,30,34,5,9] |
19 | | - Output: "9534330" |
20 | | -
|
21 | | - Note: The result may be very large, so you need to return a string instead of an integer. |
22 | | - */ |
23 | 5 | publicclass_179 { |
24 | 6 |
|
25 | | -publicstaticclassSolution1 { |
26 | | -publicStringlargestNumber(int[]num) { |
27 | | -if (num.length ==0) { |
28 | | -return""; |
29 | | - } |
30 | | -if (num.length ==1) { |
31 | | -returnInteger.toString(num[0]); |
32 | | - } |
33 | | -String[]str =newString[num.length]; |
34 | | -for (inti =0;i <num.length;i++) { |
35 | | -str[i] =Integer.toString(num[i]); |
36 | | - } |
37 | | -Arrays.sort(str,newStringComparator()); |
38 | | -StringBuildersb =newStringBuilder(""); |
39 | | -for (inti =num.length -1;i >=0;i--) { |
40 | | -sb.append(str[i]); |
41 | | - } |
42 | | -if (sb.charAt(0) =='0') { |
43 | | -return"0"; |
44 | | - } |
45 | | -returnsb.toString(); |
46 | | - } |
47 | | - |
48 | | -classStringComparatorimplementsComparator<String> { |
49 | | -publicintcompare(Strings1,Strings2) { |
50 | | -if (s1.length() ==0 &&s2.length() ==0) { |
51 | | -return0; |
52 | | - } |
53 | | -if (s2.length() ==0) { |
54 | | -return1; |
55 | | - } |
56 | | -if (s1.length() ==0) { |
57 | | -return -1; |
58 | | - } |
59 | | -for (inti =0;i <s1.length() &&i <s2.length();i++) { |
60 | | -if (s1.charAt(i) >s2.charAt(i)) { |
61 | | -return1; |
62 | | - }elseif (s1.charAt(i) <s2.charAt(i)) { |
63 | | -return -1; |
64 | | - } |
| 7 | +publicstaticclassSolution1 { |
| 8 | +publicStringlargestNumber(int[]num) { |
| 9 | +if (num.length ==0) { |
| 10 | +return""; |
| 11 | + } |
| 12 | +if (num.length ==1) { |
| 13 | +returnInteger.toString(num[0]); |
| 14 | + } |
| 15 | +String[]str =newString[num.length]; |
| 16 | +for (inti =0;i <num.length;i++) { |
| 17 | +str[i] =Integer.toString(num[i]); |
| 18 | + } |
| 19 | +Arrays.sort(str,newStringComparator()); |
| 20 | +StringBuildersb =newStringBuilder(""); |
| 21 | +for (inti =num.length -1;i >=0;i--) { |
| 22 | +sb.append(str[i]); |
| 23 | + } |
| 24 | +if (sb.charAt(0) =='0') { |
| 25 | +return"0"; |
| 26 | + } |
| 27 | +returnsb.toString(); |
65 | 28 | } |
66 | | -if (s1.length() ==s2.length()) { |
67 | | -return0; |
| 29 | + |
| 30 | +classStringComparatorimplementsComparator<String> { |
| 31 | +publicintcompare(Strings1,Strings2) { |
| 32 | +if (s1.length() ==0 &&s2.length() ==0) { |
| 33 | +return0; |
| 34 | + } |
| 35 | +if (s2.length() ==0) { |
| 36 | +return1; |
| 37 | + } |
| 38 | +if (s1.length() ==0) { |
| 39 | +return -1; |
| 40 | + } |
| 41 | +for (inti =0;i <s1.length() &&i <s2.length();i++) { |
| 42 | +if (s1.charAt(i) >s2.charAt(i)) { |
| 43 | +return1; |
| 44 | + }elseif (s1.charAt(i) <s2.charAt(i)) { |
| 45 | +return -1; |
| 46 | + } |
| 47 | + } |
| 48 | +if (s1.length() ==s2.length()) { |
| 49 | +return0; |
| 50 | + } |
| 51 | +if (s1.length() >s2.length()) { |
| 52 | +if (s1.charAt(0) <s1.charAt(s2.length())) { |
| 53 | +return1; |
| 54 | + }elseif (s1.charAt(0) >s1.charAt(s2.length())) { |
| 55 | +return -1; |
| 56 | + }else { |
| 57 | +returncompare(s1.substring(s2.length()),s2); |
| 58 | + } |
| 59 | + }else { |
| 60 | +if (s2.charAt(0) <s2.charAt(s1.length())) { |
| 61 | +return -1; |
| 62 | + }elseif (s2.charAt(0) >s2.charAt(s1.length())) { |
| 63 | +return1; |
| 64 | + }else { |
| 65 | +returncompare(s1,s2.substring(s1.length())); |
| 66 | + } |
| 67 | + } |
| 68 | + } |
68 | 69 | } |
69 | | -if (s1.length() >s2.length()) { |
70 | | -if (s1.charAt(0) <s1.charAt(s2.length())) { |
71 | | -return1; |
72 | | - }elseif (s1.charAt(0) >s1.charAt(s2.length())) { |
73 | | -return -1; |
74 | | - }else { |
75 | | -returncompare(s1.substring(s2.length()),s2); |
76 | | - } |
77 | | - }else { |
78 | | -if (s2.charAt(0) <s2.charAt(s1.length())) { |
79 | | -return -1; |
80 | | - }elseif (s2.charAt(0) >s2.charAt(s1.length())) { |
81 | | -return1; |
82 | | - }else { |
83 | | -returncompare(s1,s2.substring(s1.length())); |
84 | | - } |
| 70 | + } |
| 71 | + |
| 72 | +publicstaticclassSolution2 { |
| 73 | +/** |
| 74 | + * My completely original solution on 11/29/2021: |
| 75 | + * we'll just sort these numbers as if they are strings. |
| 76 | + */ |
| 77 | +publicStringlargestNumber(int[]nums) { |
| 78 | +List<String>strings =newArrayList<>(); |
| 79 | +for (intnum :nums) { |
| 80 | +strings.add(Integer.toString(num)); |
| 81 | + } |
| 82 | +Collections.sort(strings, (a,b) -> (b +a).compareToIgnoreCase(a +b)); |
| 83 | +StringBuildersb =newStringBuilder(); |
| 84 | +for (inti =0;i <strings.size();i++) { |
| 85 | +sb.append(strings.get(i)); |
| 86 | + } |
| 87 | +returnsb.charAt(0) =='0' ?"0" :sb.toString(); |
85 | 88 | } |
86 | | - } |
87 | 89 | } |
88 | | - } |
89 | 90 | } |