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It is much more convenient and cleaner to use a single statement like

import java.awt.*;

than to import a bunch of individual classes

import java.awt.Panel;
import java.awt.Graphics;
import java.awt.Canvas;

What is wrong with using a wildcard in the import statement?

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It is notable that in C# there is no selective import feature. This is never viewed as a problem. In the Java world most people seem to agree on the opposite view. – usr Nov 25 '14 at 11:11
"primarily opinion-based" Seriously? – Baby Mar 19 '15 at 3:30
@Baby Just like goto. For every "it's a terrible idea; it produces messy code and there are practically always better alternatives" I can posit "ah, but it's what I'm used it". – Alex Mar 20 '15 at 16:35

10 Answers 10

up vote 233 down vote accepted

The only problem with it is that it clutters your local namespace. For example, let's say that you're writing a Swing app, and so need java.awt.Event, and are also interfacing with the company's calendaring system, which has com.mycompany.calendar.Event. If you import both using the wildcard method, one of these three things happens:

  1. You have an outright naming conflict between java.awt.Event and com.mycompany.calendar.Event, and so you can't even compile.
  2. You actually manage only to import one (only one of your two imports does .*), but it's the wrong one, and you struggle to figure out why your code is claiming the type is wrong.
  3. When you compile your code there is no com.mycompany.calendar.Event, but when they later add one your previously valid code suddenly stops compiling.

The advantage of explicitly listing all imports is that I can tell at a glance which class you meant to use, which simply makes reading the code that much easier. If you're just doing a quick one-off thing, there's nothing explicitly wrong, but future maintainers will thank you for your clarity otherwise.

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It is the first scenario that will happen. The compiler notices that there are two Event classes and gives an error. – jan.vdbergh Sep 29 '08 at 5:52
Make sure to check my comment below -- there's a bigger issue with types being added to third-party libs over time. You can have compiling code that stops compiling after someone adds a type to a jar you depend upon. – Scott Stanchfield Sep 29 '08 at 19:42
regarding issue 1: technically, you can compile, but you'll have to use the fully qualified class name each time. – Kip Jun 11 '09 at 2:34
You can resolve these kind of conflicts without listing every class explicitly, which causes problems of its own. – Rusky Sep 29 '11 at 15:47

Here's a vote for star imports. An import statement is intended to import a package, not a class. It is much cleaner to import entire packages; the issues identified here (e.g. java.sql.Date vs java.util.Date) are easily remedied by other means, not really addressed by specific imports and certainly do not justify insanely pedantic imports on all classes. There is nothing more disconcerting than opening a source file and having to page through 100 import statements.

Doing specific imports makes refactoring more difficult; if you remove/rename a class, you need to remove all of its specific imports. If you switch an implementation to a different class in the same package, you have to go fix the imports. While these extra steps can be automated, they are really productivity hits for no real gain.

If Eclipse didn't do class imports by default, everyone would still be doing star imports. I'm sorry, but there's really no rational justification for doing specific imports.

Here's how to deal with class conflicts:

import java.sql.*;
import java.util.*;
import java.sql.Date;
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I agree. Although I would not be opposed to use explicit imports, I still prefer to use star imports. They emphasize that the "unit of reuse" is the whole package, not its individual types. The reasons others listed against star imports are weak, and in my experience using star imports has never caused any actual difficulties. – Rogério Jul 18 '09 at 22:24
Consider using eclipse! ;) – Ali Shakiba Dec 20 '11 at 11:16
See javadude.com/articles/importondemandisevil.html for details why it's evil. Basic idea: it can cause code to stop compiling when classes are added to packages that you import (like when List was added to java.util...) – Scott Stanchfield May 1 '12 at 16:21
Solid configuration management and continuous integration can solve this problem trivially, and you don't have explicit classnames littering your code. I agree it's poor language design, but it's dead simple to work around – davetron5000 May 1 '12 at 20:21
All the problems you mention can be solved by modern IDEs (hiding imports, refactoring class name, etc...). – assylias Feb 5 '13 at 8:10

please see my article Import on Demand is Evil

In short, the biggest problem is that your code can break when a class is added to a package you import. For example:

import java.awt.*;
import java.util.*;

// ...

List list;

In Java 1.1, this was fine; List was found in java.awt and there was no conflict.

Now suppose you check in your perfectly working code, and a year later someone else brings it out to edit it, and is using Java 1.2.

Java 1.2 added an interface named List to java.util. BOOM! Conflict. The perfectly working code no longer works.

This is an EVIL language feature. There is NO reason that code should stop compiling just because a type is added to a package...

In addition, it makes it difficult for a reader to determine which "Foo" you're using.

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This is not a valid excuse. If you're changing java version you somehow expect some things to fail, same thing if you change the version of a binary your code uses. In these cases the code would throw a compile error and it's trivial to fix (see the previous answer: stackoverflow.com/a/149282/7595) – Pablo Fernandez Apr 6 '12 at 0:44
@PabloFernandez - Nope - If I check out code that's been in a repository for a year, it should still compile. Import-on-demand can easily fail when new classes are added to existing packages that I've imported. It's not just a problem when upgrading Java versions. Also - if an API is designed well, it should never break existing code on upgrade. The only time I needed to change code when upgrading java versions was because of import-on-demand and when Sun pulled the XML APIs into the java runtime. – Scott Stanchfield May 1 '12 at 16:24
You're making such a big deal for what? Opening a class and fixing a trivial compilation error? Please dude. – Pablo Fernandez May 1 '12 at 17:08
The point of my answer is that it's an unnecessary language feature that causes problems. Many IDEs/editors automatically handle import expansion. Use fully-qualified imports and there's no chance of this particular error happening. I've been hit by this one when under pressure to fix a bug in existing code, and you really don't need something like this as a distraction from the real task at hand. java.util.List vs java.awt.List isn't too bad to figure out, but try it when the class name is Configuration and multiple dependency libraries have added it in their latest maven repo version. – Scott Stanchfield Dec 24 '12 at 20:53
If I update a jar where the classes I use are API-forward compatible, AND I do not use import-on-demand syntax, it will not affect me at all. Does that make sense to you? Don't be lazy on defining imports and this is a non-issue. Import-on-demand syntax was a mistake in the definition of the Java language; a reasonable language should not allow errors like this. – Scott Stanchfield Dec 28 '12 at 0:04

It's not bad to use a wild card with a Java import statement.

In Clean Code, Robert C. Martin actually recommends using them to avoid long import lists.

Here is the recommendation:

J1: Avoid Long Import Lists by Using Wildcards

If you use two or more classes from a package, then import the whole package with

import package.*;

Long lists of imports are daunting to the reader. We don’t want to clutter up the tops of our modules with 80 lines of imports. Rather we want the imports to be a concise statement about which packages we collaborate with.

Specific imports are hard dependencies, whereas wildcard imports are not. If you specifically import a class, then that class must exist. But if you import a package with a wildcard, no particular classes need to exist. The import statement simply adds the package to the search path when hunting for names. So no true dependency is created by such imports, and they therefore serve to keep our modules less coupled.

There are times when the long list of specific imports can be useful. For example, if you are dealing with legacy code and you want to find out what classes you need to build mocks and stubs for, you can walk down the list of specific imports to find out the true qualified names of all those classes and then put the appropriate stubs in place. However, this use for specific imports is very rare. Furthermore, most modern IDEs will allow you to convert the wildcarded imports to a list of specific imports with a single command. So even in the legacy case it’s better to import wildcards.

Wildcard imports can sometimes cause name conflicts and ambiguities. Two classes with the same name, but in different packages, will need to be specifically imported, or at least specifically qualified when used. This can be a nuisance but is rare enough that using wildcard imports is still generally better than specific imports.

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I'd suggest to Robert C. Martin to use better patterns to create more concise packages and classes of his own that don't require 80 lines of imports. That many classes needed for import inside a single class is just begging 'Entropy, Entropy, break me please...' and points the reason to avoid import *'s outlined in Scott Stanchfields anwers – Ray Nov 23 '14 at 22:04
As much as I generally love what Uncle Bob has to say, in this case I also have to disagree with him. – tgm1024 Jul 31 '15 at 1:07
Long lists of imports are daunting to the reader. -- This assertion has an invalid presumption. Programmers are not required to read source code from top to bottom. We may not read import lists at all. When we do, we might read only one of the imports, for clarification. At other times, the imports may be collapsed entirely, if we're working in an IDE. Regardless of the source, today this is now bad advice. – Andy Thomas Apr 28 at 17:39

It clutters your namespace, requiring you to fully specify any classnames that are ambiguous. The most common occurence of this is with:

import java.util.*;
import java.awt.*;

List blah; // Ambiguous, needs to be qualified.

It also helps make your dependencies concrete, as all of your dependencies are listed at the top of the file.

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  1. It helps to identify classname conflicts: two classes in different packages that have the same name. This can be masked with the * import.
  2. It makes dependencies explicit, so that anyone who has to read your code later knows what you meant to import and what you didn't mean to import.
  3. It can make some compilation faster because the compiler doesn't have to search the whole package to identify depdencies, though this is usually not a huge deal with modern compilers.
  4. The inconvenient aspects of explicit imports are minimized with modern IDEs. Most IDEs allow you to collapse the import section so it's not in the way, automatically populate imports when needed, and automatically identify unused imports to help clean them up.

Most places I've worked that use any significant amount of Java make explicit imports part of the coding standard. I sometimes still use * for quick prototyping and then expand the import lists (some IDEs will do this for you as well) when productizing the code.

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I like most of your points, but it was #4 specifically that got me to upvote your answer. Modern IDEs remove most arguments against using explicit imports... – Sheldon R. Jan 21 '14 at 16:04
Sheldon R. took the words out of my mouth. – tgm1024 Jul 31 '15 at 1:11
Maybe part of the problem here is the way the standard java libraries are laid out with many classes within the same package. As opposed to applying more of a 'single responibility principle' to a package. – LegendLength Jan 7 at 3:33

Performance: No impact on performance as byte code is same. though it will lead to some compile overheads.

Compilation: on my personal machine, Compiling a blank class without importing anything takes 100 ms but same class when import java.* takes 170 ms.

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import java.* imports nothing. Why would it make a difference? – EJP Nov 9 '15 at 19:34
It makes a difference because it gets searched during compilation. – LegendLength Jan 7 at 3:34

I prefer specific imports, because it allows me to see all the external references used in the file without looking at the whole file. (Yes, I know it won't necessarily show fully qualified references. But I avoid them whenever possible.)

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In a previous project I found that changing from *-imports to specific imports reduced compilation time by half (from about 10 minutes to about 5 minutes). The *-import makes the compiler search each of the packages listed for a class matching the one you used. While this time can be small, it adds up for large projects.

A side affect of the *-import was that developers would copy and paste common import lines rather than think about what they needed.

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Must have been a lot of import lines or a really pathetic development system for this to be true. I use import-* an I can compile my entire codebase of 2107 classes in under 2 minutes. – Lawrence Dol Mar 5 '10 at 22:37

In DDD book

In whatever development technology the implementation will be based on, look for ways of minimizing the work of refactoring MODULES . In Java, there is no escape from importing into individual classes, but you can at least import entire packages at a time, reflecting the intention that packages are highly cohesive units while simultaneously reducing the effort of changing package names.

And if it clutters local namespace its not your fault - blame the size of the package.

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