Mocking is an essential part of unit testing, and the Mockito library makes it easy to write clean and intuitive unit tests for your Java code.
Get started with mocking and improve your application tests using our Mockito guide:
Handling concurrency in an application can be a tricky process with many potential pitfalls. A solid grasp of the fundamentals will go a long way to help minimize these issues.
Get started with understanding multi-threaded applications with our Java Concurrency guide:
Spring 5 added support for reactive programming with the Spring WebFlux module, which has been improved upon ever since. Get started with the Reactor project basics and reactive programming in Spring Boot:
Since its introduction in Java 8, the Stream API has become a staple of Java development. The basic operations like iterating, filtering, mapping sequences of elements are deceptively simple to use.
But these can also be overused and fall into some common pitfalls.
To get a better understanding on how Streams work and how to combine them with other language features, check out our guide to Java Streams:
Explore Spring Boot 3 and Spring 6 in-depth through building a full REST API with the framework:
Yes, Spring Security can be complex, from the more advanced functionality within the Core to the deep OAuth support in the framework.
I built the security material as two full courses - Core and OAuth, to get practical with these more complex scenarios. We explore when and how to use each feature and code through it on the backing project.
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Spring Data JPA is a great way to handle the complexity of JPA with the powerful simplicity of Spring Boot.
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Refactor Java code safely — and automatically — with OpenRewrite.
Refactoring big codebases by hand is slow, risky, and easy to put off. That’s where OpenRewrite comes in. The open-source framework for large-scale, automated code transformations helps teams modernize safely and consistently.
Each month, the creators and maintainers of OpenRewrite at Moderne run live, hands-on training sessions — one for newcomers and one for experienced users. You’ll see how recipes work, how to apply them across projects, and how to modernize code with confidence.
Join the next session, bring your questions, and learn how to automate the kind of work that usually eats your sprint time.
Distributed systems often come with complex challenges such as service-to-service communication, state management, asynchronous messaging, security, and more.
Dapr (Distributed Application Runtime) provides a set of APIs and building blocks to address these challenges, abstracting away infrastructure so we can focus on business logic.
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1. Introduction
The binary number system uses 0s and 1s to represent numbers. Computers use binary numbers to store and perform operations on any data.
In this tutorial, we’ll learn how to convert binary to decimal and vice versa. Also, we’ll perform addition and subtraction on them.
2. Binary Literal
Java 7 introduced the binary literal. It simplified binary number usage.
To use it, we need to prefix the number with 0B or 0b:
@Test
public void given_binaryLiteral_thenReturnDecimalValue() {
byte five = 0b101;
assertEquals((byte) 5, five);
short three = 0b11;
assertEquals((short) 3, three);
int nine = 0B1001;
assertEquals(9, nine);
long twentyNine = 0B11101;
assertEquals(29, twentyNine);
int minusThirtySeven = -0B100101;
assertEquals(-37, minusThirtySeven);
}3. Binary Number Conversion
In this section, we’ll learn how to convert a binary number into its decimal format and vice versa. Here, we’ll first use a built-in Java function for conversion, and then we’ll write our custom methods for the same.
3.1. Decimal to a Binary Number
Integer has a function named toBinaryString to convert a decimal number into its binary string:
@Test
public void given_decimalNumber_then_convertToBinaryNumber() {
assertEquals("1000", Integer.toBinaryString(8));
assertEquals("10100", Integer.toBinaryString(20));
}Now, we can try to write our own logic for this conversion. Before writing the code, let’s first understand how to convert a decimal number into a binary one.
To convert a decimal number n into its binary format, we need to:
- Divide n by 2, noting the quotient q and the remainder r
- Divide q by 2, noting its quotient and remainder
- Repeat step 2 until we get 0 as the quotient
- Concatenate in reverse order all remainders
Let’s see an example of converting 6 into its binary format equivalent:
- First, divide 6 by 2: quotient 3, remainder 0
- Then, divide 3 by 2: quotient 1, remainder 1
- And finally, divide 1 by 2: quotient 0, remainder 1
- 110
Let’s now implement the above algorithm:
public Integer convertDecimalToBinary(Integer decimalNumber) {
if (decimalNumber == 0) {
return decimalNumber;
}
StringBuilder binaryNumber = new StringBuilder();
Integer quotient = decimalNumber;
while (quotient > 0) {
int remainder = quotient % 2;
binaryNumber.append(remainder);
quotient /= 2;
}
binaryNumber = binaryNumber.reverse();
return Integer.valueOf(binaryNumber.toString());
}3.2. Binary to a Decimal Number
To parse a binary string, the Integer class provides a parseInt function:
@Test
public void given_binaryNumber_then_ConvertToDecimalNumber() {
assertEquals(8, Integer.parseInt("1000", 2));
assertEquals(20, Integer.parseInt("10100", 2));
}Here, the parseInt function takes two parameters as input:
- Binary string to be converted
- Radix or base of the number system in which input string has to be converted
Now, let’s try to write our own logic to convert a binary number into decimal:
- Start from with rightmost digit
- Multiply each digit with 2^{position} of that digit – here, rightmost digit’s position is zero and it increases as we move to the left side
- Add the result of all the multiplications to get the final decimal number
Again, let’s see our method in action:
- First, 101011 = (1*2^5) + (0*2^4) + (1*2^3) + (0*2^2) + (1*2^1) + (1*2^0)
- Next, 101011 = (1*32) + (0*16) + (1*8) + (0*4) + (1*2) + (1*1)
- Then, 101011 = 32 + 0 + 8 + 0 + 2 + 1
- And finally, 101011 = 43
Let’s finally code the above steps:
public Integer convertBinaryToDecimal(Integer binaryNumber) {
Integer decimalNumber = 0;
Integer base = 1;
while (binaryNumber > 0) {
int lastDigit = binaryNumber % 10;
binaryNumber = binaryNumber / 10;
decimalNumber += lastDigit * base;
base = base * 2;
}
return decimalNumber;
}4. Arithmetic Operations
In this section, we’ll concentrate on performing the arithmetic operations on binary numbers.
4.1. Addition
Just like the decimal number addition, we start adding the numbers from the rightmost digit.
While adding two binary digits, we need to remember the following rules:
- 0 + 0 = 0
- 0 + 1 = 1
- 1 + 1 = 10
- 1 + 1 + 1 = 11
These rules can be implemented as:
public Integer addBinaryNumber(Integer firstNum, Integer secondNum) {
StringBuilder output = new StringBuilder();
int carry = 0;
int temp;
while (firstNum != 0 || secondNum != 0) {
temp = (firstNum % 10 + secondNum % 10 + carry) % 2;
output.append(temp);
carry = (firstNum % 10 + secondNum % 10 + carry) / 2;
firstNum = firstNum / 10;
secondNum = secondNum / 10;
}
if (carry != 0) {
output.append(carry);
}
return Integer.valueOf(output.reverse().toString());
}4.2. Subtraction
There are many ways to subtract binary numbers. In this section, we’ll learn a one’s complement method to do subtraction.
Let’s first understand what is one’s complement of a number.
One’s complement of a number is a number obtained by negating each digit of the binary number. That means just replace 1 by 0 and 0 by 1:
public Integer getOnesComplement(Integer num) {
StringBuilder onesComplement = new StringBuilder();
while (num > 0) {
int lastDigit = num % 10;
if (lastDigit == 0) {
onesComplement.append(1);
} else {
onesComplement.append(0);
}
num = num / 10;
}
return Integer.valueOf(onesComplement.reverse().toString());
}To do subtraction of two binary numbers using one’s complement, we need to:
- Calculate the one’s complement of the subtrahend s
- Add s and the minuend
- If a carry gets generated in step 2, then add that carry to step 2’s result to get the final answer.
- If a carry is not generated in step 2, then the one’s complement of step 2’s result is the final answer. But in this case, the answer is negative
Let’s implement the above steps:
public Integer substractBinaryNumber(Integer firstNum, Integer secondNum) {
int onesComplement = Integer.valueOf(getOnesComplement(secondNum));
StringBuilder output = new StringBuilder();
int carry = 0;
int temp;
while (firstNum != 0 || onesComplement != 0) {
temp = (firstNum % 10 + onesComplement % 10 + carry) % 2;
output.append(temp);
carry = (firstNum % 10 + onesComplement % 10 + carry) / 2;
firstNum = firstNum / 10;
onesComplement = onesComplement / 10;
}
String additionOfFirstNumAndOnesComplement = output.reverse().toString();
if (carry == 1) {
return addBinaryNumber(Integer.valueOf(additionOfFirstNumAndOnesComplement), carry);
} else {
return getOnesComplement(Integer.valueOf(additionOfFirstNumAndOnesComplement));
}
}5. Conclusion
In this article, we learned how to convert binary numbers into decimal ones and vice versa. Then, we performed arithmetic operations such as addition and subtraction on binary numbers.
