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I understand the difference between runtime and compile-time and how to differentiate between the two, but I just don't see the need to make a distinction between compile-time and runtime dependencies.

What I'm choking on is this: how can a program not depend on something at runtime that it depended on during compilation? If my Java app uses log4j, then it needs the log4j.jar file in order to compile (my code integrating with and invoking member methods from inside log4j) as well as runtime (my code has absolutely no control over what happens once code inside log4j.jar is ran).

I'm reading up on dependency resolution tools such as Ivy and Maven, and these tools clearly make the distinction between these two types of dependencies. I just don't understand the need for it.

Can anyone give a simple, "King's English"-type explanation, preferably with an actual example that even a poor sap like me could understand?

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You can use reflection, and use classes that was not available at compile time. Think "plugin". –  Per Alexandersson Aug 15 '11 at 20:50

7 Answers 7

up vote 34 down vote accepted

A compile-time dependency is generally required at runtime. In maven, a compile scoped dependency will be added to the classpath on runtime (e.g. in wars they will be copied to WEB-INF/lib).

It is not, however, strictly required; for instance, we may compile against a certain API, making it a compile-time dependency, but then at runtime include an implementation that also includes the API.

There may be fringe cases where the project requires a certain dependency to compile but then the corresponding code is not actually needed, but these will be rare.

On the other hand, including runtime dependencies that are not needed at compile-time is very common. For instance, if you're writing a Java EE 6 application, you compile against the Java EE 6 API, but at runtime, any Java EE container can be used; it's this container that provides the implementation.

Compile-time dependencies can be avoided by using reflection. For instance, a JDBC driver can be loaded with a Class.forName and the actual class loaded be configurable through a configuration file.

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About the Java EE API--isn't that what the "provided" dependency scope is for? –  Kevin Aug 15 '11 at 20:51
an example where a dependency is needed to compile but not needed at runtime is lombok (www.projectlombok.org). The jar is used to transform java code at compile time but is not needed at all at runtime. Specifying scope "provided" causes the jar to not be included in the war/jar. –  Kevin Aug 15 '11 at 20:53
@Kevin Yes, good point, the provided scope adds a compile time dependency without adding a runtime dependency on the expectation that the dependency will be provided at runtime by other means (e.g. a shared library in the container). runtime on the other hand adds a runtime dependency without making it a compile-time dependency. –  Artefacto Aug 15 '11 at 20:56
So is it safe to say that there is usually a 1:1 correlation between a "module configuration" (using Ivy terms) and major directory under your project root? For instance, all my JUnit tests that depend on the JUnit JAR will be under the test/ root, etc. I just don't see how the same classes, packaged under the same source root, could be "configured" to depend on different JARs at any given time. If you need log4j, then you need log4j; there's no way to tell the same code to invoke log4j calls under 1 config, but to ignore log4j calls under some "non-logging" config, right? –  IAmYourFaja Aug 15 '11 at 20:56

You need at compile time dependencies which you might need at runtime. However many libraries run without all its possible dependencies. i.e. a libraries which can use four different XML libraries, but only needs one to work.

Many libraries, need other libraries in turn. These libraries are not needed at compile time but are needed at runtime. i.e. when the code is actually run.

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could you give us examples of such libraries that will not be needed at compile but will be need at runtime? –  Cristiano Dec 20 '14 at 14:56
@Cristiano all JDBC libraries are like this. Also libraries which implement a standard API. –  Peter Lawrey Dec 20 '14 at 15:03

Usually, the static dependencies graph is a sub-graph of the dynamic one, see e.g. this blog entry from the author of NDepend.

That said, there are some exceptions, mainly dependencies that add compiler-support, which becomes invisible at runtime. For instance for code generation as via Lombok or additional checks as via the (pluggable type-)checker framework.

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Generally you are right and probasbly it is the ideal situation if runtime and compile time dependencies are identical.

I will give you 2 example when this rule is incorrect.

If class A depends on class B that depends on class C that depends on class D where A is your class and B, C and D are classes from different third party libraries you need only B and C at compile time and you need also D at runtime. Often programs use dynamic class loading. In this case you do not need classes dynamically loaded by library you are using at compile time. Moreover often the library chooses which implementation to use at runtime. For example SLF4J or Commons Logging can change the target log implementation at runtime. You need only SSL4J itself at compile time.

Opposite example when you need more dependencies at compile time than at runtime. Think that you are developing application that has to work at different environments or operating systems. You need all platform specific libraries at compile time and only libraries needed for current environment at runtime.

I hope my explanations help.

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Each Maven dependency has a scope that defines which classpath that dependency is available on. The most common scope — “compile” scope — indicates that the dependency is available to your project on the compile classpath, the unit test compile and execution classpaths, and the eventual runtime classpath when you execute your application. In a Java EE web application, this means the dependency is copied into your deployed application. “Runtime” scope indicates that the depen- dency is available to your project on the unit test execution and runtime execution classpaths, but unlike compile scope it is not available when you compile your application or its unit tests. A runtime dependency is copied into your deployed application. Finally, “provided” scope indicates that the container in which your application executes provides the dependency on your behalf. In a Java EE application, this means the dependency is already on the Servlet container’s or application server’s classpath and is not copied into your deployed application.

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At compile time you enables contracts/api that you are expected from your dependencies. (eg: here you just sign for a contract with broadband internet provider) At run-time actually you are using the dependencies. (eg: here you actually are using the broadband internet)

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Just ran into an issue that answers your question. servlet-api.jar is a transient dependency in my web project and is needed both at compile time and runtime. But servlet-api.jar is also included in my Tomcat library.

The solution here is to make servlet-api.jar in maven available only at compile time and not packaged in my war file so that it would not clash with the servlet-api.jar contained in my Tomcat library.

I hope this explains Compile time and Runtime dependency.

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Your example is actually incorrect for given question, cause it explains the difference between compile and provided scopes and not between compile and runtime. Compile scope is both needed at compile time and is packaged in your app. Provided scope is only needed at compile time but is not packaged in your app cause it is provided by other meant, for example it is already in Tomcat server. –  MJar Jul 17 '13 at 7:40

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