


Always Specify a Locale with a SimpleDateFormat, and a DateTimeFormatter for Custom Formats
Problem:
Parsing a date-time string using SimpleDateFormat fails on a specific device, resulting in a "Unparseable date" error.
Analysis:
SimpleDateFormat requires a Locale parameter to specify the language and cultural conventions for date parsing. If no Locale is specified, the system's default Locale is used. This can lead to parsing inconsistencies on devices with different Locale settings.
Solution:
- Specify the desired Locale explicitly when creating a SimpleDateFormat instance.
- Use the modern DateTimeFormatter API instead of SimpleDateFormat. It provides locale-specific parsing and formatting with improved performance and flexibility.
Detailed Explanation:
The given date-time string ("24 Oct 2016 7:31 pm") is in English. However, if the system's default Locale is not English (e.g., in the case of a French phone), the default SimpleDateFormat instance will fail to parse it.
Java 8 (DateTimeFormatter):
In Java 8 , use DateTimeFormatter with an explicit Locale to parse custom date-time strings. Avoid using the predefined Formatters, which do not accept Locales. For example:
DateTimeFormatter dtf = new DateTimeFormatterBuilder() .parseCaseInsensitive() .appendPattern("d MMM uuuu h:m a") .toFormatter(Locale.ENGLISH); LocalDateTime ldt = LocalDateTime.parse(strDateTime, dtf);
Java 6/7 (ThreeTen-Backport):
If stuck with Java 6 or Java 7, use ThreeTen-Backport to backport the DateTimeFormatter functionality.
Additional Notes:
- The error message "Unparseable date: "24 Oct 2016 7:31 pm" (at offset 3)" indicates that the parsing failed because of the second character ("c") in "Oct" (character at offset 3). This is likely due to locale-specific differences in month names.
- It is highly recommended to switch to the modern DateTimeFormatter API for all date-time handling, as it is superior in terms of functionality, performance, and consistency compared to SimpleDateFormat.
The above is the detailed content of Why Does My SimpleDateFormat Fail to Parse Dates, and How Can I Fix It Using Locale and DateTimeFormatter?. For more information, please follow other related articles on the PHP Chinese website!

JVM works by converting Java code into machine code and managing resources. 1) Class loading: Load the .class file into memory. 2) Runtime data area: manage memory area. 3) Execution engine: interpret or compile execution bytecode. 4) Local method interface: interact with the operating system through JNI.

JVM enables Java to run across platforms. 1) JVM loads, validates and executes bytecode. 2) JVM's work includes class loading, bytecode verification, interpretation execution and memory management. 3) JVM supports advanced features such as dynamic class loading and reflection.

Java applications can run on different operating systems through the following steps: 1) Use File or Paths class to process file paths; 2) Set and obtain environment variables through System.getenv(); 3) Use Maven or Gradle to manage dependencies and test. Java's cross-platform capabilities rely on the JVM's abstraction layer, but still require manual handling of certain operating system-specific features.

Java requires specific configuration and tuning on different platforms. 1) Adjust JVM parameters, such as -Xms and -Xmx to set the heap size. 2) Choose the appropriate garbage collection strategy, such as ParallelGC or G1GC. 3) Configure the Native library to adapt to different platforms. These measures can enable Java applications to perform best in various environments.

OSGi,ApacheCommonsLang,JNA,andJVMoptionsareeffectiveforhandlingplatform-specificchallengesinJava.1)OSGimanagesdependenciesandisolatescomponents.2)ApacheCommonsLangprovidesutilityfunctions.3)JNAallowscallingnativecode.4)JVMoptionstweakapplicationbehav

JVMmanagesgarbagecollectionacrossplatformseffectivelybyusingagenerationalapproachandadaptingtoOSandhardwaredifferences.ItemploysvariouscollectorslikeSerial,Parallel,CMS,andG1,eachsuitedfordifferentscenarios.Performancecanbetunedwithflagslike-XX:NewRa

Java code can run on different operating systems without modification, because Java's "write once, run everywhere" philosophy is implemented by Java virtual machine (JVM). As the intermediary between the compiled Java bytecode and the operating system, the JVM translates the bytecode into specific machine instructions to ensure that the program can run independently on any platform with JVM installed.

The compilation and execution of Java programs achieve platform independence through bytecode and JVM. 1) Write Java source code and compile it into bytecode. 2) Use JVM to execute bytecode on any platform to ensure the code runs across platforms.


Hot AI Tools

Undresser.AI Undress
AI-powered app for creating realistic nude photos

AI Clothes Remover
Online AI tool for removing clothes from photos.

Undress AI Tool
Undress images for free

Clothoff.io
AI clothes remover

Video Face Swap
Swap faces in any video effortlessly with our completely free AI face swap tool!

Hot Article

Hot Tools

SAP NetWeaver Server Adapter for Eclipse
Integrate Eclipse with SAP NetWeaver application server.

mPDF
mPDF is a PHP library that can generate PDF files from UTF-8 encoded HTML. The original author, Ian Back, wrote mPDF to output PDF files "on the fly" from his website and handle different languages. It is slower than original scripts like HTML2FPDF and produces larger files when using Unicode fonts, but supports CSS styles etc. and has a lot of enhancements. Supports almost all languages, including RTL (Arabic and Hebrew) and CJK (Chinese, Japanese and Korean). Supports nested block-level elements (such as P, DIV),

SublimeText3 Mac version
God-level code editing software (SublimeText3)

Dreamweaver Mac version
Visual web development tools

EditPlus Chinese cracked version
Small size, syntax highlighting, does not support code prompt function
