The following editor will bring you a cliché JavaStringAdvanced (must read). The editor thinks it’s pretty good, so I’ll share it with you now and give it as a reference. Let’s follow the editor and take a look.
Preface
There are three most commonly used classes for string operations, namely String and StringBuilder. , StringBuffer, these three classes will be discussed in detail below...
String
The String class represents a string , this is the most basic class for strings, and this is also the most commonly used class. I will not introduce it in detail here
Construction
new String(String str)
new String(StringBuilder str)
new String(StringBuffer str)
new String(byte[] bys,String charsetName) Constructs a new String by decoding the specified byte subarray using the specified character set.
Common methods
str charAt(int index) Returns the character at the specified index
String concat(String str) Connect the specified string str to the end of this string and return the characters after the connection is successful, so it needs to be accepted to be effective.
boolean contains(CharSequence s) determines whether this string contains the specified char value sequence. CharSequence here is an interface, you can directly use its subclasses as parameters (String, StringBuffer, StringBuild)
static String copyValueOf(char[] c) Convert character array into characters String and return
static String copyValueOf(char[] c,int off,int count) Convert the intercepted character array into a string and return it, off is the subscript to start interception, and count is the number of interceptions
boolean endWith(String s) determines whether the string ends with s
boolean equals(Object o) is used for comparison
int indexOf(char c) returns the character c The index of the first occurrence in the string
int indexOf(char c,int fromIndex) Start searching from the specified index and find the index of the first occurrence
int indexOf(String str ) Returns the index of the first occurrence of the specified substring in this string.
int indexOf(String str,int fromIndex) Returns the index of the first occurrence of the specified substring in this string, starting from the specified index.
boolean isEmpty()
int length()
boolean matches(String regex) Whether to match regular expression
trim () Returns a copy of the string, ignoring leading and trailing whitespace.
String substring(int beginIndex) returns a new string, which is a substring of this string.
String substring(int beginIndex, int endIndex) Returns a new string that is a substring of this string.
String toUpperCase() Converts all characters in this String to uppercase using the rules of the default locale.
String[] split(String regex) Splits this string based on matches of the given regular expression.
String[] split(String regex, int limit) Splits this string based on matching the given regular expression.
char[] toCharArray() Converts this string to a new character array.
byte[] getBytes(Charset charset) Use the given charset to encode this String into a byte sequence and store the result into a new byte array
Note
The above new String(byte[] bys,String charsetName) Construction method is very important, it can change the encoding set of the string (and byte[] getBytes (Charset charset)) is used together. Let’s take a look at an example. The code is as follows:
/* * InputStreamReader实现了将字节流FileInputStream转换为字符流,然后使用转换来的字节流创建高效流,从而实现高效的读写 */ /* * 编码集(我的eclipse编辑器默认的是utf-8 * 下面将中文字符串的编码集变为GBK写入a.txt文件,因为a.txt默认的是utf-8的因此这里在文件中显示的是乱码 * 然后我们读出来的还是GBK的,因为我们写入的是GBK编码集的,但是我的eclipse是utf-8的编码集,因此在控制台上输出的还是乱码 * new String(byte[] bys,String * charsetName)使用这个构造方法将byte数组改变编码集并且转换为utf-8格式的,那么这次在控制台上输出的就不乱码了 */ // 将GBK格式的中文写入a.txt文件 File file = new File("src/a.txt"); FileOutputStream fileOutputStream = new FileOutputStream(file); String str = "中"; byte[] by = str.getBytes("GBK"); // 将字符串改为GBK编码集 fileOutputStream.write(by); fileOutputStream.close(); //从a.txt文件中读取中文 FileInputStream fileInputStream = new FileInputStream(file); int len; byte[] bys = new byte[4]; while ((len = fileInputStream.read(bys)) != -1) { System.out.println(new String(bys, "GBK")); } fileInputStream.close();
StringBuffer
Thread-safe mutable character sequence. A string buffer similar to String, but cannot be modified. Of course, the most important point is thread safety. We can see from its source code that thread control blocks are used for some operations (append, insert..) to achieve synchronization, which is suitable for use in multi-threads. Source The code is as follows:
public synchronized StringBuffer append(Object obj) { super.append(String.valueOf(obj)); return this; } public synchronized StringBuffer append(String str) { super.append(str); return this; } public synchronized StringBuffer delete(int start, int end) { super.delete(start, end); return this; } /** * @throws StringIndexOutOfBoundsException {@inheritDoc} * @since 1.2 */ public synchronized StringBuffer deleteCharAt(int index) { super.deleteCharAt(index); return this; }
Construction
new StringBuffer(StringBuilder str)
new StringBuffer( String str)
Commonly used methods
StringBuffer append(str) appends the str of the specified type to the end of this string (String, char,char[],int,double,float,long,StringBuffer,StringBuilder)
StringBuffer insert(int offest, str) Inserts the str of the specified type into this sequence, offset represents the starting position of insertion Index, types include String, char, char[], int, double, float, long, StringBuffer, StringBuilder
String delete(int fromIndex,int endIndex) Removes the string in this sequence and returns a new buffer string
StringBuffer reverse() Reverse the string
String substring( int start) Returns a new String containing the subsequence of characters currently contained by this character sequence.
String substring(int start, int end) Returns a new String containing the character subsequence currently contained by this sequence.
StringBuffer deleteCharAt(int index) Removes the char at the specified position in this sequence.
int length() length
String toString() Returns the string representation of the data in this sequence.
StringBuilder
It is recommended to use this class in preference because it is faster than StringBuffer in most implementations. However, this class is not thread-safe and is only suitable for single threads. If you use multi-threading, it is recommended to use StringBuffer. Of course, you can also use this, but you need to implement synchronization yourself
Construction method
new StringBuilder(String str)
Common methods
The common methods of this class are the same as those of StringBuffer. I won’t list them one by one here. You can use them by referring to the above
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