Python count() method - Counting Substrings

If you want to count the number of occurrences of a specific substring in a string in Python, the most efficient way is to use the built-in count() method.

The general syntax of the Python count() method is as follows-

str.count(sub, start, end)

Parameters:

• sub- The substring you want to count in the String str.
• start (optional)- The starting index of the search range.
• end (optional)- The ending index of the search range.

If start and end are not provided, Python counts occurrences across the entire string. When they are specified, only the substring occurrences within that slice are counted.

Python string count() method example

1. Using count() method with no start and end parameters.

s = "This a test string to test count method"
print('Count-', s.count("test"))

Output

Count- 2

2. Using count() method with start and end parameters.

s = "This a test string to test count method"
# passing range for search 
count = s.count("test", s.find("test"), s.rfind("test"))
print('Count-', count)

Output

Count- 1

In the example range for search is passed using find() and rfind() methods, find() returns the lowest index in the string where substring is found and rfind() returns the highest index in the string where substring sub is found.

3. Calculating count of character ‘o’ in the String.

s = "This a test string to test count method"
count = s.count("o")
print('Count-', count)

Output

Count- 3

That's all for this topic Python count() method - Counting Substrings. If you have any doubt or any suggestions to make please drop a comment. Thanks!

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How ArrayList Works Internally in Java

When it comes to Java Collections, ArrayList stands alongside HashMap as one of the most widely used data structures. In fact, most Java developers rely on ArrayList almost daily to store and manage objects efficiently. Earlier, I explained how HashMap works internally in Java; in this article, we’ll dive deep into how ArrayList works internally in Java, a topic that frequently appears in interviews and is crucial for mastering the Collections Framework.

At its core, ArrayList is a resizable-array implementation of the List interface. Unlike a traditional array, which has a fixed size, ArrayList can grow dynamically as elements are added. This flexibility is achieved through an internal mechanism that ensures there’s always room for new elements without manual resizing.

So, let's try to get clear idea about the following points-

• How ArrayList is internally implemented in Java.
• What is the backing data structure for an ArrayList.
• How it grows dynamically and ensures that there is always room to add elements.

Because of all these side questions it is also a very important Java Collections interview question.

Note that the code of ArrayList used here for reference is from Java 25

Table of contents

1. Where does ArrayList internally store elements
2. What happens when ArrayList is created
3. How does ArrayList grow dynamically
4. What happens when an element is removed from ArrayList

Where does ArrayList internally store elements

Backing data structure used by Java ArrayList to store its elements is an array of Object class, which is defined as follows-

transient Object[] elementData;

This elementData array is where all objects are actually stored. The keyword transient is important here: it tells the JVM not to serialize this field by default. You might wonder, if the core storage is transient, how does serialization of an ArrayList still work? The answer lies in the fact that ArrayList overrides the writeObject and readObject methods. These custom implementations ensure that the contents of elementData are properly serialized and deserialized, even though the field itself is marked transient.

Getting Substring in Python String

When it comes to getting substring in Python string, many developers instinctively look for a built-in substring() method, as found in other languages. However, Python takes a different approach, there is no dedicated method for substrings. Instead, Python uses the powerful concept of string slicing, which is both flexible and concise.

Format of String slicing is as follows-

Stringname[start_position: end_position: increment_step]

start_position is the index from which the string slicing starts, start_position is included.

end_position is the index at which the string slicing ends, end_position is excluded.

increment_step indicates the step size. For example if step is given as 2 then every alternate character from start_position is accessed.

All three parameters are optional-

• If start_position is omitted, slicing starts from index 0.
• If end_position is omitted, slicing continues to the last character.
• If step is omitted, the default is 1.

Getting substring through Python string slicing examples

1. A simple example where substring from index 2..3 is required.

s = "Test String"
print(s[2: 4: 1])

st

Here slicing is done from index 2 (start_pos) to index 3 (end_pos-1). Step size is 1.

2. Access only the month part from a date in dd/mm/yyyy format. Python makes this simple using string slicing combined with the find() method.

s = "18/07/2019"
month = s[s.find("/")+1: s.rfind("/") : 1]
print('Month part of the date is-', month)

Month part of the date is- 07

That's all for this topic Getting Substring in Python String. If you have any doubt or any suggestions to make please drop a comment. Thanks!

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2. Python count() method - Counting Substrings
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Is String Thread Safe in Java

We do know that String objects are immutable. It is also true that immutable objects are thread-safe so by transitive law string objects are thread-safe. So, if you are asked the question "Is String Thread Safe in Java?", the short answer is yes.

But let’s go deeper into why this holds true. To understand whether String in Java is thread-safe, we first need to break down two key concepts: immutability and thread safety.

Immutable object- An immutable object is one whose state cannot be modified after creation. Thus immutable object can only be in one state and that state can not be changed after creation of the object.

Thread safety– I’ll quote "Java concurrency in practice" book here– "A class is thread-safe if it behaves correctly when accessed from multiple threads, where correctness means that a class conforms to its specification".

Thread safety in String

String in Java, being immutable, has the specification that its values are constant and cannot be changed once created.

But there is a little confusion with many users when it comes to this question Is String thread safe in Java. Many people think that string is immutable so thread safety here should mean even if multiple threads are accessing the same string those threads should not be able to change the content of the string at all as the String being immutable can't be modified.

In reality, immutability ensures that no thread can ever change the content of an existing String. Any operation that appears to modify a String—such as concatenation, replacement, or substring- actually creates a new String object. The reference is updated to point to this new object, while the original remains unchanged.

So even in a multi-threaded environment, if several threads are working with the same String, they are all safely accessing an immutable value. If one thread performs an operation that "changes" the string, it simply receives a new reference, leaving the original untouched. This behavior guarantees that String in Java is inherently thread-safe.

Java String thread safe example

Let’s try to see this with an example. In this example three threads are created and all of them share the same string object. In each of these thread, thread name is appended to the string and then that string is printed. Thread class' join() method is also used here to wait for all of the threads to finish and then the string object is printed again.

public class StrThread implements Runnable {
  private String s;
  //Constructor
  public StrThread(String s){
    this.s = s;
  }
  @Override
  public void run() {
    System.out.println("in run method " + Thread.currentThread().getName());        
        
    try {
      // introducing some delay
      Thread.sleep(50);
    } catch (InterruptedException e) {
      e.printStackTrace();
    }  
    // Adding to String  
    s = s + Thread.currentThread().getName();
    System.out.println("String " + s);
  }
    
  public static void main(String[] args) {
    String str = "abc";
    // Three threadss
    Thread t1 = new Thread(new StrThread(str));
    Thread t2 = new Thread(new StrThread(str));
    Thread t3 = new Thread(new StrThread(str));
    t1.start();
    t2.start();
    t3.start();
    // Waiting for all of them to finish
    try {
      t1.join();
      t2.join();
      t3.join();
    } catch (InterruptedException e) {    
      e.printStackTrace();
    }
    System.out.println("String is " + str.toString());
  }
}

Output

in run method Thread-0
in run method Thread-1
in run method Thread-2
String abcThread-1
String abcThread-2
String abcThread-0
String is abc

Here note that every thread changes the content of the string but in the process where str refers to is also changed, so effectively each thread gets its own string object. Once all the threads finish, str is printed in the main method again and it can be seen that the original string's value remains unchanged meaning original reference with the original content remains intact.

With this program you can see that String is immutable so original String won't be changed but String reference can still be changed with multiple threads. So Java Strings are thread safe here means when the shared String is changed it creates a new copy for another thread that way original String remains unchanged.

To see what may happen with a mutable object let us use StringBuffer in the place of String.

public class StrThread implements Runnable {
  private StringBuffer s;
  //Constructor
  public StrThread(StringBuffer s){
    this.s = s;
  }
  @Override
  public void run() {
    System.out.println("in run method " + Thread.currentThread().getName());        
      
    try {
      // introducing some delay
      Thread.sleep(50);
    } catch (InterruptedException e) {
      e.printStackTrace();
    }    
    s.append(Thread.currentThread().getName());
    System.out.println("String " + s);
  }
    
  public static void main(String[] args) {
    StringBuffer str = new StringBuffer("abc");
    // Three threadss
    Thread t1 = new Thread(new StrThread(str));
    Thread t2 = new Thread(new StrThread(str));
    Thread t3 = new Thread(new StrThread(str));
    t1.start();
    t2.start();
    t3.start();
    // Waiting for all of them to finish
    try {
      t1.join();
      t2.join();
      t3.join();
    } catch (InterruptedException e) {    
      e.printStackTrace();
    }
    System.out.println("String is " + str.toString());
  }
}

Output

in run method Thread-0
in run method Thread-1
in run method Thread-2
String abcThread-0
String abcThread-0Thread-2
String abcThread-0Thread-2Thread-1
String is abcThread-0Thread-2Thread-1

Note– output may vary in different runs

Here it can be seen that shared StringBuffer object is modified.

That's all for this topic Is String Thread Safe in Java. If you have any doubt or any suggestions to make please drop a comment. Thanks!

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Changing String Case in Python- Methods and Examples

If you’ve ever worked with text in Python, you’ve likely needed to adjust its case. In this tutorial, we’ll explore all the built-in methods for changing string case in Python- from converting text to lowercase or uppercase, to formatting titles and capitalizing words.

Python provides several powerful and easy-to-use string methods for case conversion and case checking. Here’s a quick summary of the most commonly used ones:

1. str.lower()- Returns a copy of the string with all characters converted to lowercase.
2. str.upper()- Returns a copy of the string with all characters converted to uppercase.
3. str.capitalize()- Returns a copy of the string with the first character capitalized and the rest lowercased.
4. str.title()- Returns a titlecased version of the string, where each word starts with an uppercase character and the remaining characters are lowercase.

Along with methods for changing string case in Python, the language also provides handy built-in functions to check the case of a string. These methods are useful when you want to verify whether case conversion is needed before performing operations like formatting or normalization.

Here are the most commonly used case-checking methods:

1. str.islower()- Returns True if all cased characters in the string are lowercase and there is at least one cased character; otherwise returns False.
2. str.isupper()- Returns True if all cased characters in the string are uppercase and there is at least one cased character; otherwise returns False.
3. str.istitle()- Returns True if the string is in title case (each word starts with an uppercase letter followed by lowercase letters) and contains at least one character.

Changing String case in Python examples

1. Changing String to all lower case or to all upper case.

s = "This is a TEST String"
print('String in all lower case-',s.lower())
s = "This is a Test String"
print('String in all upper case-', s.upper())

Output

String in all lower case- this is a test string
String in all upper case- THIS IS A TEST STRING

2. Capitalizing the String. First character will be capitalized, if there is any other upper case character in the String that is lower cased.

s = "this is a TEST String"
print('String Capitalized-',s.capitalize())

Output

String Capitalized- This is a test string

3. String title cased. Using title() method you can title cased a String. This method capitalizes the first character of every word.

s = "this is a TEST String"
print('String Title cased-',s.title())

Output

String Title cased- This Is A Test String

4. Checking the case before changing. You can also check the case before changing the case of the String and change the case only if needed. This is an optimization because any String modification method results in a creation of a new String as String is immutable in Python.

s = "this is a test string"
#change only if not already in lower case
if not s.islower():
    s = s.lower()
else:
    print('String already in lower case')
print(s)

Output

String already in lower case
this is a test string

s = "This is a test String"
#change only if not already in upper case
if not s.isupper():
    s = s.upper()
else:
    print('String already in upper case')
print(s)

Output

THIS IS A TEST STRING

That's all for this topic Changing String Case in Python- Methods and Examples. If you have any doubt or any suggestions to make please drop a comment. Thanks!

>>>Return to Python Tutorial Page

---

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Java Stream - concat() With Examples

The concat() method in the Java Stream API allows you to merge two streams into a single stream. It takes two streams as arguments and returns a new stream containing all elements of the first stream followed by all elements of the second. This makes it a convenient way to combine data sources while working with Java’s functional programming features.

Syntax of concat() method

concat(Stream<? extends T> a, Stream<? extends T> b)

Here parameters are-

• a- the first stream
• b- the second stream

Return Value: A new stream that represents the concatenation of both input streams.

Important Notes:

• The resulting stream is ordered if both input streams are ordered.
• It is parallel if either of the input streams is parallel.
• Since streams in Java are consumed once, the concatenated stream should be used immediately to avoid losing data.

concat() method Java examples

1. Using concat() method to merge two streams of integers.

import java.util.stream.Stream;

public class StreamConcat {

  public static void main(String[] args) {
    Stream<Integer> stream1 = Stream.of(1, 2, 3);
      Stream<Integer> stream2 = Stream.of(4, 5, 6);
      Stream<Integer> mergedStream = Stream.concat(stream1, stream2);
      mergedStream.forEach(System.out::println);
  }
}

Output

1
2
3
4
5
6

2. Merging two Collections (Lists) by using concat() method of Java Stream API.

import java.util.Arrays;
import java.util.List;
import java.util.stream.Stream;

public class StreamConcat {

  public static void main(String[] args) {
    List<String> strList1 = Arrays.asList("A","B","C","D");
    List<String> strList2 = Arrays.asList("E","F","G","H");
    // Getting streams using Lists as source
    Stream<String> stream1 = strList1.stream();
    Stream<String> stream2 = strList2.stream();
    
      Stream<String> mergedStream = Stream.concat(stream1, stream2);
      mergedStream.forEach(System.out::println);
  }
}

Output

A
B
C
D
E
F
G
H

3. You can also use concat() method along with other methods of the Java Stream, for example you can write a program to merge 2 lists while removing duplicates which can be done by using distinct() method.

public class StreamConcat {

  public static void main(String[] args) {
    List<String> strList1 = Arrays.asList("A","B","C","D");
    List<String> strList2 = Arrays.asList("E","B","G","A");
    // Getting streams using Lists as source
    Stream<String> stream1 = strList1.stream();
    Stream<String> stream2 = strList2.stream();
    
      Stream<String> mergedStream = Stream.concat(stream1, stream2).distinct();
      mergedStream.forEach(System.out::println);
  }
}

Output

A
B
C
D
E
G

4. Using concat() to merge multiple streams. You can also merge more than two streams by nesting the concat method.

public class StreamConcat {

  public static void main(String[] args) {
      Stream<Integer> stream1 = Stream.of(1, 2);
      Stream<Integer> stream2 = Stream.of(3, 4, 5);
      Stream<Integer> stream3 = Stream.of(7, 8, 9);
      Stream<Integer> stream4 = Stream.of(10, 11);
      Stream<Integer> mergedStream = Stream.concat(stream1, 
              Stream.concat(Stream.concat(stream2, stream3), stream4));
      mergedStream.forEach(e -> System.out.print(e + " "));
  }
}

Output

1 2 3 4 5 7 8 9 10 11 

That's all for this topic Java Stream - concat() With Examples. If you have any doubt or any suggestions to make please drop a comment. Thanks!

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How to Convert float to int in Java

When working with numbers in Java, you may often need to display values without decimal points. In such cases, converting a float to an int becomes essential. This guide will walk you through how to convert float to int in Java, explaining the different approaches and their implications.

While performing this conversion, two main concerns arise:

• Range limitations: A float can represent a much larger range than an int. If the float value exceeds the int range, you need to understand how Java handles overflow
• Rounding behavior: Converting a float with decimal places to an int will truncate the fractional part. Knowing whether you want truncation, rounding, or another strategy is crucial for accurate results.

In the sections below, we’ll explore the available options for converting float to int in Java, demonstrate code examples, and explain how these concerns are addressed in Java.

Table of contents

1. Using Float.intValue() method
2. Conversion from float to int Using typecasting
3. Using Math.round() method

1. Using Float.intValue() method

You can use the intValue() method of the Float wrapper class to convert float to int. Description of the intValue() method is as following.

• intValue()- Returns the value of this Float as an int after a narrowing primitive conversion.

public class FloatToInt {
 public static void main(String[] args) {
  Float f = new Float(567.678);
  int val = f.intValue();
  System.out.println("int value " + val);
 }
}

Output

int value 567

Here you can see that rounding doesn’t happen while converting, just the digits after the decimal points are removed. You will get the same result if you use type casting instead.

2. Conversion from float to int Using typecasting

public class FloatToInt {
 public static void main(String[] args) {
  float fVal = 567.678f;
  // type casting
  int val1 = (int)fVal;
  System.out.println("int value " + val1);
 }
}

Output

int value 567

Here again you can see by type casting digits after the decimal are removed and there is no rounding. The only difference between using Float.intValue() and explicit casting is you need Float object for using intValue() where as typecasting can be done with a primitive float data type.

3. Using Math.round() method

As you have seen above methods of converting float to int are just giving the whole part of the number but mostly you will also like to do rounding. For that you can use Math.round method which takes float as argument and returns the value of the argument rounded to the nearest int value.

There are also some special cases–

• If the argument is NaN, the result is 0.
• If the argument is negative infinity or any value less than or equal to the value of Integer.MIN_VALUE, the result is equal to the value of Integer.MIN_VALUE.
• If the argument is positive infinity or any value greater than or equal to the value of Integer.MAX_VALUE, the result is equal to the value of Integer.MAX_VALUE.

Conversion from float to int - Math.round() example

If we take the same float value as used above

public class FloatToInt {

 public static void main(String[] args) {  
  float fVal = 567.678f;
  int rVal = Math.round(fVal);
  System.out.println("int value " + rVal);
 }
}

Output

int value 568

Here you can see that the value is rounded to the nearest int value.

Example with Some more values-

public class FloatToInt {
 public static void main(String[] args) {
  float f1 = -10.78f;
  float f2 = 4.4999f;
  float f3 = 105.12f;
  int i1 = Math.round(f1);
  int i2 = Math.round(f2);
  int i3 = Math.round(f3);
  System.out.println("float value: " + f1 + "int value: " + i1);
  System.out.println("float value: " + f2 + "int value: " + i2);
  System.out.println("float value: " + f3 + "int value: " + i3);
 }
}

Output

float value: -10.78int value: -11
float value: 4.4999int value: 4
float value: 105.12int value: 105

If float value out of range

If float value that has to be converted to int is out of range then the following rules are applied-

• If the argument is negative infinity or any value less than or equal to the value of Integer.MIN_VALUE, the result is equal to the value of Integer.MIN_VALUE.
• If the argument is positive infinity or any value greater than or equal to the value of Integer.MAX_VALUE, the result is equal to the value of Integer.MAX_VALUE.

public class FloatToInt {
 public static void main(String[] args) {
  Float f = new Float(567678865544.678);
  int val = f.intValue();
  System.out.println("int value " + val);
  
  float fVal = 567678865544.678f;
  int val1 = (int)fVal;
  System.out.println("int value " + val1); 
 }
}

Output

int value 2147483647
int value 2147483647

Here it can be seen that integer value is equal to Integer.MAX_VALUE as float value is greater than Integer.MAX_VALUE

Same way you can check for minimum value.

That's all for this topic How to convert float to int in Java. If you have any doubt or any suggestions to make please drop a comment. Thanks!

>>>Return to Java Programs Page

---

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