给定一个单词列表,其中每个单词都遵循 CamelCase 符号,任务是打印字典中与仅由大写字符组成的给定模式匹配的所有单词。
例子
Input: arr[] = [ “WelcomeGeek”, “WelcomeToGeeksForGeeks”, “GeeksForGeeks” ], pattern = “WTG”
Output: WelcomeToGeeksForGeeks
Explanation:
There is only one abbreviation for the given pattern i.e., WelcomeToGeeksForGeeks.
Input: arr[] = [ “Hi”, “Hello”, “HelloWorld”, “HiTech”, “HiGeek”, “HiTechWorld”, “HiTechCity”, “HiTechLab” ], pattern = “HA”
Output: No match found
Explanation:
There is no such abbreviation for the given pattern.
方法:
1.遍历每个单词,并用给定字符串找到的每个大写字母对该单词进行哈希处理。
例如:
For string = "GeeksForGeeks"
then the hashing after every uppercase letter found is:
map {
{G, GeeksForGeeks},
{GF, GeeksForGeeks},
{GFG, GeeksForGeeks}
}
2 .在为列表中的所有字符串创建散列之后。在映射中搜索给定模式并打印映射到它的所有字符串。
下面是上述方法的实现:
C++
// C++ to find CamelCase Pattern
// matching
#include "bits/stdc++.h"
using namespace std;
// Function that prints the camel
// case pattern matching
void CamelCase(vector& words,
string pattern)
{
// Map to store the hashing
// of each words with every
// uppercase letter found
map > map;
// Traverse the words array
// that contains all the
// string
for (int i = 0; i < words.size(); i++) {
// Intialise str as
// empty
string str = "";
// length of string words[i]
int l = words[i].length();
for (int j = 0; j < l; j++) {
// For every uppercase
// letter found map
// that uppercase to
// original words
if (words[i][j] >= 'A'
&& words[i][j] <= 'Z') {
str += words[i][j];
map[str].push_back(words[i]);
}
}
}
bool wordFound = false;
// Traverse the map for pattern
// matching
for (auto& it : map) {
// If pattern matches then
// print the corresponding
// mapped words
if (it.first == pattern) {
wordFound = true;
for (auto& itt : it.second) {
cout << itt << endl;
}
}
}
// If word not found print
// "No match found"
if (!wordFound) {
cout << "No match found";
}
}
// Driver's Code
int main()
{
vector words = {
"Hi", "Hello", "HelloWorld",
"HiTech", "HiGeek", "HiTechWorld",
"HiTechCity", "HiTechLab"
};
// Pattern to be found
string pattern = "HT";
// Function call to find the
// words that match to the
// given pattern
CamelCase(words, pattern);
return 0;
}
Java
// Java to find CamelCase Pattern
// matching
import java.util.*;
class GFG{
// Function that prints the camel
// case pattern matching
static void CamelCase(ArrayList words,
String pattern)
{
// Map to store the hashing
// of each words with every
// uppercase letter found
Map> map = new HashMap>();
// Traverse the words array
// that contains all the
// String
for (int i = 0; i < words.size(); i++) {
// Intialise str as
// empty
String str = "";
// length of String words[i]
int l = words.get(i).length();
for (int j = 0; j < l; j++) {
// For every uppercase
// letter found map
// that uppercase to
// original words
if (words.get(i).charAt(j) >= 'A'
&& words.get(i).charAt(j) <= 'Z') {
str += words.get(i).charAt(j);
map.put(str,list(map.get(str),words.get(i)));
}
}
}
boolean wordFound = false;
// Traverse the map for pattern
// matching
for (Map.Entry> it : map.entrySet()) {
// If pattern matches then
// print the corresponding
// mapped words
if (it.getKey().equals(pattern)) {
wordFound = true;
for(String s : it.getValue())
System.out.print(s +"\n");
}
}
// If word not found print
// "No match found"
if (!wordFound) {
System.out.print("No match found");
}
}
private static List list(List list, String str) {
List temp = new ArrayList();
if(list != null)
temp.addAll(list);
temp.add(str);
return temp;
}
// Driver's Code
public static void main(String[] args)
{
String arr[] = {"Hi", "Hello", "HelloWorld",
"HiTech", "HiGeek", "HiTechWorld",
"HiTechCity", "HiTechLab"
};
ArrayList words = new ArrayList(Arrays.asList(arr));
// Pattern to be found
String pattern = "HT";
// Function call to find the
// words that match to the
// given pattern
CamelCase(words, pattern);
}
}
// This code is contributed by PrinciRaj1992
Python3
# Python3 to find CamelCase Pattern
# matching
# Function that prints the camel
# case pattern matching
def CamelCase(words, pattern) :
# Map to store the hashing
# of each words with every
# uppercase letter found
map = dict.fromkeys(words,None);
# Traverse the words array
# that contains all the
# string
for i in range(len(words)) :
# Intialise str as
# empty
string = "";
# length of string words[i]
l = len(words[i]);
for j in range(l) :
# For every uppercase
# letter found map
# that uppercase to
# original words
if (words[i][j] >= 'A' and words[i][j] <= 'Z') :
string += words[i][j];
if string not in map :
map[string] = [words[i]]
elif map[string] is None :
map[string] = [words[i]]
else :
map[string].append(words[i]);
wordFound = False;
# Traverse the map for pattern
# matching
for key,value in map.items() :
# If pattern matches then
# print the corresponding
# mapped words
if (key == pattern) :
wordFound = True;
for itt in value :
print(itt);
# If word not found print
# "No match found"
if (not wordFound) :
print("No match found");
# Driver's Code
if __name__ == "__main__" :
words = [
"Hi", "Hello", "HelloWorld",
"HiTech", "HiGeek", "HiTechWorld",
"HiTechCity", "HiTechLab"
];
# Pattern to be found
pattern = "HT";
# Function call to find the
# words that match to the
# given pattern
CamelCase(words, pattern);
# This code is contributed by AnkitRai01
C#
// C# to find CamelCase Pattern
// matching
using System;
using System.Collections.Generic;
class GFG{
// Function that prints the camel
// case pattern matching
static void CamelCase(List words,
String pattern)
{
// Map to store the hashing
// of each words with every
// uppercase letter found
Dictionary> map = new Dictionary>();
// Traverse the words array
// that contains all the
// String
for (int i = 0; i < words.Count; i++) {
// Intialise str as
// empty
String str = "";
// length of String words[i]
int l = words[i].Length;
for (int j = 0; j < l; j++) {
// For every uppercase
// letter found map
// that uppercase to
// original words
if (words[i][j] >= 'A'
&& words[i][j] <= 'Z') {
str += words[i][j];
if(map.ContainsKey(str))
map[str] = list(map[str],words[i]);
else
map.Add(str,list(null,words[i]));
}
}
}
bool wordFound = false;
// Traverse the map for pattern
// matching
foreach (KeyValuePair> it in map) {
// If pattern matches then
// print the corresponding
// mapped words
if (it.Key.Equals(pattern)) {
wordFound = true;
foreach(String s in it.Value)
Console.Write(s +"\n");
}
}
// If word not found print
// "No match found"
if (!wordFound) {
Console.Write("No match found");
}
}
private static List list(List list, String str) {
List temp = new List();
if(list != null)
temp.AddRange(list);
temp.Add(str);
return temp;
}
// Driver's Code
public static void Main(String[] args)
{
String []arr = {"Hi", "Hello", "HelloWorld",
"HiTech", "HiGeek", "HiTechWorld",
"HiTechCity", "HiTechLab"
};
List words = new List(arr);
// Pattern to be found
String pattern = "HT";
// Function call to find the
// words that match to the
// given pattern
CamelCase(words, pattern);
}
}
// This code is contributed by Rajput-Ji
C#
using System;
using System.Collections.Generic;
using System.Linq;
public class GFG {
public static void
PrintMatchingCamelCase(String[] arr, String pattern)
{
// Concatenating all array elements
// using Aggregate function of LINQ
// putting semicolon as delimiter after each element
String cctdString
= arr.Aggregate((i, j) = > i + ';' + j);
// Map to store the hashing
// of each words with every
// uppercase letter found
Dictionary > map
= new Dictionary >();
// temporary Variables
int charPos = 0;
int wordPos = 0;
string strr = string.Empty;
// Traversing through concatenated String
for (; charPos < cctdString.Length; charPos++) {
// Identifying if the current Character is
// CamelCase If so, then adding to map
// accordingly
if (cctdString[charPos] >= 'A'
&& cctdString[charPos] <= 'Z') {
strr += cctdString[charPos];
if (map.ContainsKey(strr)) {
List temp = new List();
temp.AddRange(map[strr]);
temp.Add(arr[wordPos]);
map[strr] = temp;
}
else {
map.Add(strr, new List{
arr[wordPos] });
}
}
// If delimiter has reached then reseting
// temporary string also incrementing word
// position value
else if (cctdString[charPos] == ';') {
wordPos++;
strr = string.Empty;
}
}
// If pattern matches then
// print the corresponding
// mapped words
if (map.ContainsKey(pattern)) {
foreach(String word in map[pattern])
{
Console.WriteLine(word);
}
}
else {
Console.WriteLine("No Match Found");
}
}
// Driver's Code
public static void Main(String[] args)
{
// Array of Words
String[] arr
= { "Hi", "Hello", "HelloWorld",
"HiTech", "HiGeek", "HiTechWorld",
"HiTechCity", "HiTechLab" };
// Pattern to be found
String pattern = "HT";
// Function call to find the
// words that match to the
// given pattern
PrintMatchingCamelCase(arr, pattern);
}
// This code is contributed by Rishabh Singh
}
HiTech
HiTechWorld
HiTechCity
HiTechLab
时间复杂度: O(N*M) 其中 N 是包含字符串的列表的长度,M 是最长字符串的长度。
有效的方法:
- 通过连接所有数组元素和分号作为每个数组元素后的分隔符来准备一个字符串。
- 遍历连接的字符串并查找大写字符或分隔符。
- 保留一个包含所有大写字符的临时字符串,直到分隔符进入遍历。将此临时字符串添加为字典中的键(如果键不存在),或者如果键已存在则附加单词。
- 到达分隔符后,重置临时变量。
下面是上述方法的实现:
C#
using System;
using System.Collections.Generic;
using System.Linq;
public class GFG {
public static void
PrintMatchingCamelCase(String[] arr, String pattern)
{
// Concatenating all array elements
// using Aggregate function of LINQ
// putting semicolon as delimiter after each element
String cctdString
= arr.Aggregate((i, j) = > i + ';' + j);
// Map to store the hashing
// of each words with every
// uppercase letter found
Dictionary > map
= new Dictionary >();
// temporary Variables
int charPos = 0;
int wordPos = 0;
string strr = string.Empty;
// Traversing through concatenated String
for (; charPos < cctdString.Length; charPos++) {
// Identifying if the current Character is
// CamelCase If so, then adding to map
// accordingly
if (cctdString[charPos] >= 'A'
&& cctdString[charPos] <= 'Z') {
strr += cctdString[charPos];
if (map.ContainsKey(strr)) {
List temp = new List();
temp.AddRange(map[strr]);
temp.Add(arr[wordPos]);
map[strr] = temp;
}
else {
map.Add(strr, new List{
arr[wordPos] });
}
}
// If delimiter has reached then reseting
// temporary string also incrementing word
// position value
else if (cctdString[charPos] == ';') {
wordPos++;
strr = string.Empty;
}
}
// If pattern matches then
// print the corresponding
// mapped words
if (map.ContainsKey(pattern)) {
foreach(String word in map[pattern])
{
Console.WriteLine(word);
}
}
else {
Console.WriteLine("No Match Found");
}
}
// Driver's Code
public static void Main(String[] args)
{
// Array of Words
String[] arr
= { "Hi", "Hello", "HelloWorld",
"HiTech", "HiGeek", "HiTechWorld",
"HiTechCity", "HiTechLab" };
// Pattern to be found
String pattern = "HT";
// Function call to find the
// words that match to the
// given pattern
PrintMatchingCamelCase(arr, pattern);
}
// This code is contributed by Rishabh Singh
}
HiTech
HiTechWorld
HiTechCity
HiTechLab
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