## Why Does Java\'s Modulus Operator (%) Return Negative Results for Negative Numbers?-javaTutorial-php.cn

Home

Java

javaTutorial

## Why Does Java\'s Modulus Operator (%) Return Negative Results for Negative Numbers?

Susan Sarandon

Oct 29, 2024 pm 12:39 PM

## Why Does Java's Modulus Operator (%) Return Negative Results for Negative Numbers?

Modulus Calculations in Java: Handling Negative Numbers

In Java, performing modulus operations on negative numbers often yields unexpected results. When applying the modulus operator (%) on a negative number, one might expect to obtain a positive value, but in some cases, it returns a negative result. To understand this behavior, it is essential to delve into the inner workings of modulus calculations.

The modulus operator calculates the remainder when dividing one number by another. For positive numbers, the remainder is consistently positive. However, when dealing with negative numbers, there are two possible definitions of modulus:

Floored Modulus: This definition rounds down the remainder to the nearest integer towards negative infinity.
Truncating Modulus: This definition rounds down the remainder to zero (i.e., it discards any fractional part).

Java employs the truncating modulus definition. Consequently, when dividing a negative number by a positive number, the remainder is always negative. For instance, -13 % 64 evaluates to -13 in Java because -13 is divided by 64 without any fractional component.

If one desires a positive remainder for negative inputs, the following code snippet can be employed:

<code class="java">int r = x % n;
if (r > 0 && x <p>Conversely, if one prefers a negative remainder for negative inputs, the following code snippet can be used:</p>
<pre class="brush:php;toolbar:false"><code class="java">int r = x % n;
if (r <p>Understanding the varying definitions of modulus is crucial when working with negative numbers in different programming languages. By comprehending the distinctions between floored and truncating modulus, developers can ensure that their code behaves as intended, especially when dealing with negative inputs.</p></code>

The above is the detailed content of ## Why Does Java\'s Modulus Operator (%) Return Negative Results for Negative Numbers?. For more information, please follow other related articles on the PHP Chinese website!

Statement

The content of this article is voluntarily contributed by netizens, and the copyright belongs to the original author. This site does not assume corresponding legal responsibility. If you find any content suspected of plagiarism or infringement, please contact admin@php.cn

JVM performance vs other languagesMay 14, 2025 am 12:16 AM

JVM'sperformanceiscompetitivewithotherruntimes,offeringabalanceofspeed,safety,andproductivity.1)JVMusesJITcompilationfordynamicoptimizations.2)C offersnativeperformancebutlacksJVM'ssafetyfeatures.3)Pythonisslowerbuteasiertouse.4)JavaScript'sJITisles

Java Platform Independence: Examples of useMay 14, 2025 am 12:14 AM

JavaachievesplatformindependencethroughtheJavaVirtualMachine(JVM),allowingcodetorunonanyplatformwithaJVM.1)Codeiscompiledintobytecode,notmachine-specificcode.2)BytecodeisinterpretedbytheJVM,enablingcross-platformexecution.3)Developersshouldtestacross

JVM Architecture: A Deep Dive into the Java Virtual MachineMay 14, 2025 am 12:12 AM

TheJVMisanabstractcomputingmachinecrucialforrunningJavaprogramsduetoitsplatform-independentarchitecture.Itincludes:1)ClassLoaderforloadingclasses,2)RuntimeDataAreafordatastorage,3)ExecutionEnginewithInterpreter,JITCompiler,andGarbageCollectorforbytec

JVM: Is JVM related to the OS?May 14, 2025 am 12:11 AM

JVMhasacloserelationshipwiththeOSasittranslatesJavabytecodeintomachine-specificinstructions,managesmemory,andhandlesgarbagecollection.ThisrelationshipallowsJavatorunonvariousOSenvironments,butitalsopresentschallengeslikedifferentJVMbehaviorsandOS-spe

Java: Write Once, Run Anywhere (WORA) - A Deep Dive into Platform IndependenceMay 14, 2025 am 12:05 AM

Java implementation "write once, run everywhere" is compiled into bytecode and run on a Java virtual machine (JVM). 1) Write Java code and compile it into bytecode. 2) Bytecode runs on any platform with JVM installed. 3) Use Java native interface (JNI) to handle platform-specific functions. Despite challenges such as JVM consistency and the use of platform-specific libraries, WORA greatly improves development efficiency and deployment flexibility.

Java Platform Independence: Compatibility with different OSMay 13, 2025 am 12:11 AM

JavaachievesplatformindependencethroughtheJavaVirtualMachine(JVM),allowingcodetorunondifferentoperatingsystemswithoutmodification.TheJVMcompilesJavacodeintoplatform-independentbytecode,whichittheninterpretsandexecutesonthespecificOS,abstractingawayOS

What features make java still powerfulMay 13, 2025 am 12:05 AM

Javaispowerfulduetoitsplatformindependence,object-orientednature,richstandardlibrary,performancecapabilities,andstrongsecurityfeatures.1)PlatformindependenceallowsapplicationstorunonanydevicesupportingJava.2)Object-orientedprogrammingpromotesmodulara

Top Java Features: A Comprehensive Guide for DevelopersMay 13, 2025 am 12:04 AM

The top Java functions include: 1) object-oriented programming, supporting polymorphism, improving code flexibility and maintainability; 2) exception handling mechanism, improving code robustness through try-catch-finally blocks; 3) garbage collection, simplifying memory management; 4) generics, enhancing type safety; 5) ambda expressions and functional programming to make the code more concise and expressive; 6) rich standard libraries, providing optimized data structures and algorithms.

See all articles