My JavaFX application needs to be able to find the FXML files to load them with the FXMLLoader, as well as stylesheets (CSS files) and images. When I try to load these, I often get errors, or the item I'm trying to load simply doesn't load at runtime.
For FXML files, the error message I see includes
Caused by: java.lang.NullPointerException: location is not set
For images, the stack trace includes
Caused by: java.lang.IllegalArgumentException: Invalid URL: Invalid URL or resource not found
How do I figure out the correct resource path for these resources?
Short version of answer:
Use getClass().getResource(...) or SomeOtherClass.class.getResource(...) to create a URL to the resource
Pass either an absolute path (with a leading /) or a relative path (without a leading /) to the getResource(...) method. The path is the package containing the resource, with . replaced with /.
Do not use .. in the resource path. If and when the application is bundled as a jar file, this will not work. If the resource is not in the same package or in a subpackage of the class, use an absolute path.
For FXML files, pass the URL directly to the FXMLLoader.
For images and stylesheets, call toExternalForm() on the URL to generate the String to pass to the Image or ImageView constructor, or to add to the stylesheets list.
To troubleshoot, examine the content of your build folder (or jar file), not your source folder.
Placing src in the path when you get a resource is always wrong. The src directory is only available at development and build time, not at deployment and runtime.
Full Answer
Contents
Scope of this answer
Resources are loaded at runtime
JavaFX uses URLs to load resources
Rules for resource names
Creating a resource URL with getClass().getResource(...)
Organizing code and resources
Maven (and similar) standard layouts
Troubleshooting
Scope of this answer
Note that this answer only addresses loading resources (for example FXML files, images, and stylesheets) that are part of the application, and bundled with it. So, for example, loading images that the user chooses from the file system on the machine on which the application is running would require different techniques that are not covered here.
Resources are loaded at runtime
The first thing to understand about loading resources is that they, of course, are loaded at runtime. Typically, during development, an application is run from the file system: that is, the class files and resources required to run it are individual files on the file system. However, once the application is built, it is usually executed from a jar file. In this case, the resources such as FXML files, stylesheets, and images, are no longer individual files on the filesystem but are entries in the jar file. Therefore:
Code cannot use File, FileInputStream, or file: URLs to load a resource
JavaFX uses URLs to load resources
JavaFX loads FXML, Images, and CSS stylesheets using URLs.
The FXMLLoader explicitly expects a java.net.URL object to be passed to it (either to the static FXMLLoader.load(...) method, to the FXMLLoader constructor, or to the setLocation() method).
Both Image and Scene.getStylesheets().add(...) expect Strings that represent URLs. If URLs are passed without a scheme, they are interpreted relative to the classpath. These strings can be created from a URL in a robust way by calling toExternalForm() on the URL.
The recommended mechanism for creating the correct URL for a resource is to use Class.getResource(...), which is called on an appropriate Class instance. Such a class instance can be obtained by calling getClass() (which gives the class of the current object), or ClassName.class. The Class.getResource(...) method takes a String representing the resource name.
Rules for resource names
Resource names are /-separated path names. Each component represents a package or sub-package name component.
Resource names are case-sensitive.
The individual components in the resource name must be valid Java identifiers
The last point has an important consequence:
. and .. are not valid Java identifiers, so they cannot be used in resource names.
These may actually work when the application is running from the filesystem, though this is really more of an accident of the implementation of getResource(). They will fail when the application is bundled as a jar file.
Similarly, if you are running on an operating system that does not distinguish between filenames that differ only by case, then using the wrong case in a resource name might work while running from the filesystem, but will fail when running from a jar file.
Resource names beginning with a leading / are absolute: in other words they are interpreted relative to the classpath. Resource names without a leading / are interpreted relative to the class on which getResource() was called.
A slight variation on this is to use getClass().getClassLoader().getResource(...). The path supplied to ClassLoader.getResource(...) must not begin with a / and is always absolute, i.e. it is relative to the classpath. It should also be noted that in modular applications, access to resources using ClassLoader.getResource() is, under some circumstances, subject to rules of strong encapsulation, and additionally the package containing the resource must be opened unconditionally. See the documentation for details.
Creating a resource URL with getClass().getResource()
To create a resource URL, use someClass.getResource(...). Usually, someClass represents the class of the current object, and is obtained using getClass(). However, this doesn't have to be the case, as described in the next section.
If the resource is in the same package as the current class, or in a subpackage of that class, use a relative path to the resource:
// FXML file in the same package as the current class:
URL fxmlURL = getClass().getResource("MyFile.fxml");
Parent root = FXMLLoader.load(fxmlURL);
// FXML file in a subpackage called `fxml`:
URL fxmlURL2 = getClass().getResource("fxml/MyFile.fxml");
Parent root2 = FXMLLoader.load(fxmlURL2);
// Similarly for images:
URL imageURL = getClass().getResource("myimages/image.png");
Image image = new Image(imageURL.toExternalForm());
If the resource is in a package that is not a subpackage of the current class, use an absolute path. For example, if the current class is in the package org.jamesd.examples.view, and we need to load a CSS file style.css which is in the package org.jamesd.examples.css, we have to use an absolute path:
URL cssURL = getClass().getResource("/org/jamesd/examples/css/style.css");
scene.getStylesheets().add(cssURL.toExternalForm());
It's worth re-emphasizing for this example that the path "../css/style.css" does not contain valid Java resource names, and will not work if the application is bundled as a jar file.
Organizing code and resources
I recommend organizing your code and resources into packages determined by the part of the UI they are associated with. The following source layout in Eclipse gives an example of this organization:
Using this structure, each resource has a class in the same package, so it is easy to generate the correct URL for any resource:
FXMLLoader editorLoader = new FXMLLoader(EditorController.class.getResource("Editor.fxml"));
Parent editor = editorLoader.load();
FXMLLoader sidebarLoader = new FXMLLoader(SidebarController.class.getResource("Sidebar.fxml"));
Parent sidebar = sidebarLoader.load();
ImageView logo = new ImageView();
logo.setImage(newImage(SidebarController.class.getResource("logo.png").toExternalForm()));
mainScene.getStylesheets().add(App.class.getResource("style.css").toExternalForm());
If you have a package with only resources and no classes, for example, the images package in the layout below
you can even consider creating a "marker interface" solely for the purposes of looking up the resource names:
package org.jamesd.examples.sample.images ;
public interface ImageLocation { }
which now lets you find these resources easily:
Image clubs = new Image(ImageLocation.class.getResource("clubs.png").toExternalForm());
Loading resources from a subpackage of a class is also reasonably straightforward. Given the following layout:
we can load resources in the App class as follows:
package org.jamesd.examples.resourcedemo;
import java.net.URL;
import javafx.application.Application;
import javafx.fxml.FXMLLoader;
import javafx.scene.Parent;
import javafx.scene.Scene;
import javafx.stage.Stage;
public class App extends Application {
#Override
public void start(Stage primaryStage) throws Exception {
URL fxmlResource = getClass().getResource("fxml/MainView.fxml");
Parent root = FXMLLoader.load(fxmlResource);
Scene scene = new Scene(root);
scene.getStylesheets().add(getClass().getResource("style/main-style.css").toExternalForm());
primaryStage.setScene(scene);
primaryStage.show();
}
public static void main(String[] args) {
Application.launch(args);
}
}
To load resources which are not in the same package, or a subpackage, of the class from which you're loading them, you need to use the absolute path:
URL fxmlResource = getClass().getResource("/org/jamesd/examples/resourcedemo/fxml/MainView.fxml");
Maven (and similar) standard layouts
Maven and other dependency management and build tools recommend a source folder layout in which resources are separated from Java source files, as per the Maven Standard Directory Layout. The Maven layout version of the previous example looks like:
It is important to understand how this is built to assemble the application:
*.java files in the source folder src/main/java are compiled to class files, which are deployed to the build folder or jar file.
Resources in the resource folder src/main/resources are copied to the build folder or jar file.
In this example, because the resources are in folders that correspond to subpackages of the packages where the source code is defined, the resulting build (which, by default with Maven, is in target/classes) consists of a single structure.
Note that both src/main/java and src/main/resources are considered the root for the corresponding structure in the build, so only their content, not the folders themselves, are part of the build. In other words, there is no resources folder available at runtime. The build structure is shown below in the "troubleshooting" section.
Notice that the IDE in this case (Eclipse) displays the src/main/java source folder differently from the src/main/resources folder; in the first case it displays packages, but for the resource folder it displays folders. Make sure you know if you are creating packages (whose names are .-delimited) or folders (whose names must not contain ., or any other character not valid in a Java identifier) in your IDE.
If you are using Maven and decide that for ease of maintenance you'd rather keep your .fxml files next to the .java files that reference them (instead of sticking strictly to the Maven Standard Directory Layout), you can do so. Just tell Maven to copy these files to the same folder in your output directory that it will place the class files generated from those source files into, by including something like the following in your pom.xml file:
<build>
...
<resource>
<directory>src/main/java</directory>
<includes>
<include>**/*.fxml</include>
<include>**/*.css</include>
</includes>
</resource>
...
</build>
If you do this, you can then use an approach like FXMLLoader.load(getClass().getResource("MyFile.fxml")) to have your classes load .fxml resources from the directory which contains their own .class files.
Troubleshooting
If you get errors you do not expect, first check the following:
Make sure you are not using invalid names for your resources. This includes using . or .. in the resource path.
Make sure you are using relative paths where expected, and absolute paths where expected. for Class.getResource(...) the path is absolute if it has a leading /, and relative otherwise. For ClassLoader.getResource(...), the path is always absolute, and must not start with a /.
Remember that absolute paths are defined relative to the classpath. Typically the root of the classpath is the union of all source and resource folders in your IDE.
If all this seems correct, and you still see errors, check the build or deployment folder. The exact location of this folder will vary by IDE and build tool. If you are using Maven, by default it is target/classes. Other build tools and IDEs will deploy to folders named bin, classes, build, or out.
Often, your IDE will not show the build folder, so you may need to check it with the system file explorer.
The combined source and build structure for the Maven example above is
If you are generating a jar file, some IDEs may allow you to expand the jar file in a tree view to inspect its contents. You can also check the contents from the command line with jar tf file.jar:
$ jar -tf resource-demo-0.0.1-SNAPSHOT.jar
META-INF/
META-INF/MANIFEST.MF
org/
org/jamesd/
org/jamesd/examples/
org/jamesd/examples/resourcedemo/
org/jamesd/examples/resourcedemo/images/
org/jamesd/examples/resourcedemo/style/
org/jamesd/examples/resourcedemo/fxml/
org/jamesd/examples/resourcedemo/images/so-logo.png
org/jamesd/examples/resourcedemo/style/main-style.css
org/jamesd/examples/resourcedemo/Controller.class
org/jamesd/examples/resourcedemo/fxml/MainView.fxml
org/jamesd/examples/resourcedemo/App.class
module-info.class
META-INF/maven/
META-INF/maven/org.jamesd.examples/
META-INF/maven/org.jamesd.examples/resource-demo/
META-INF/maven/org.jamesd.examples/resource-demo/pom.xml
META-INF/maven/org.jamesd.examples/resource-demo/pom.properties
$
If the resources are not being deployed, or are being deployed to an unexpected location, check the configuration of your build tool or IDE.
Example image loading troubleshooting code
This code is deliberately more verbose than is strictly necessarily to facilitate adding additional debugging information for the image loading process. It also uses System.out rather than a logger for easier portability.
String resourcePathString = "/img/wumpus.png";
Image image = loadImage(resourcePathString);
// ...
private Image loadImage(String resourcePathString) {
System.out.println("Attempting to load an image from the resourcePath: " + resourcePathString);
URL resource = HelloApplication.class.getResource(resourcePathString);
if (resource == null) {
System.out.println("Resource does not exist: " + resourcePathString);
return null;
}
String path = resource.toExternalForm();
System.out.println("Image path: " + path);
Image image = new Image(path);
System.out.println("Image load error? " + image.isError());
System.out.println("Image load exception? " + image.getException());
if (!image.isError()) {
System.out.println("Successfully loaded an image from " + resourcePathString);
}
return image;
}
External Tutorial Reference
A useful external tutorial for resource location is Eden coding's tutorial:
Where to put resource files in JavaFX.
The nice thing about the Eden coding tutorial is that it is comprehensive. In addition to covering the information on lookups from Java code which is in this question. The Eden tutorial covers topics such as locating resources that are encoded as urls in CSS, or resource references in FXML using an # specifier or fx:include element (which are topics currently not directly covered in this answer).
I'm pretty new to sbt-native-packager. What I want is using external conf folder like a resource folder and configure the files inside it differently on each environment such as production, dev and etc.
Project has src/universal/conf and bunch of configuration files under this directory used by libraries at runtime.
I exclude src/universal/conf during build so final jar does not has these conf files as resources. I checked bin/start.sh and only lib/ folder set as classpath.
How can I accomplish it? What's the best practices? I don't think that JavaServerPackaging is more convenient because final jar has several main methods to be used as separate applications on same node. So one dameon application looks like doesn't fit.
There are already a few questions with proper solutions for this
SBT using sbt-native-packager how to create different build files?
What is the recommended way to set JVM options...
I'm testing a web application with Eclipse + Tomcat, Eclipse deploys the web application files and launches Tomcat, and the application runs fine. But when MyBatis is trying to open it's XML configuration files, it looks for them in
C:\Program Files\Apache Software Foundation\Tomcat 7.0\lib\persistence\db\oracle.xml
instead of the correct place:
C:\workspace\mywebapp\src\persistence\db\oracle.xml
Where is MyBatis supposed to look for XML files?
EDIT:
This is where I specify the relative path:
String cfgFile = "persistence/db/oracle.xml";
Reader reader = Resources.getResourceAsReader(cfgFile);
session.put(db, new SqlSessionFactoryBuilder().build(reader));
Resources.getResourceAsReader looks files in classpath. For web application running in tomcat classpath consist of WEB-INF/classes and all jars from WEB-INF/lib and tomcat folders like $TOMCAT_HOME\lib.
The issue you encounter most probably is caused by the fact that oracle.xml file is not added to deployment. It looks like c:\workspace\myweapp\src is not among source folder of eclipse project so eclipse doesn't copy files from it to the folder which is deployed to tomcat. Depending on your existing project structure you may need to create subfolder in src and add persistence with all subfolders there. This will allow you to avoid clash if some subfolder of src is already a source folder in eclipse. I would recommend to use maven project structure:
src
main
* java
you java source code here organized by package
* resources
persistence
I marked folders which should be added as source folder to eclipse with *.
Please note that it is not correct to say that C:\workspace\mywebapp\src\persistence\db\oracle.xml is a correct place to search for it. After you create a war to deploy it on production this path most probably will not be available at your production server. What you really need is to include persistence\db\oracle.xml to the war in appropriate place (under WEB-INF/classes).
Maybe you need another class loader 1. Try this:
String cfgFile = "persistence/db/oracle.xml";
ClassLoader classloader = Thread.currentThread().getContextClassLoader()
Reader reader = Resources.getResourceAsReader(classloader, cfgFile);
Notes
See Difference between thread's context class loader and normal classloader and you may want to see the code of org.apache.ibatis.io.Resources. You find it here.
Where should I keep external files in play framework? I tried adding it to conf folder, it didn't work. Then I added it in project folder, it didn't work either. I defined the dependency in build.scala, but that didn't work as well. That file is supposed to be used in file input stream.
The contents of conf, including subdirectories, will be available on classpath. Then you can access it in your application.
For example, if you create a resources directory in conf and put a file in it:
-- app
-- bin
-- conf
- resources
- myfile
...
Then you can get the contents as:
val stream = getClass.getResourceAsStream("/resources/myfile")
val content = io.Source.fromInputStream(stream).mkString
You can inspect what gets copied and is made available on classpath by going to <play root>/target/scala-xx/classes/.
I debugged my Spring Webflow test to the point of figuring out the first part of the issue: When you have a flow with a filename that is not the same as the id of the flow ('commons-flow.xml' with id='commons') then just using resourceFactory.createFileResource(pathToFlowFile) does not work because that assumes the id is the filename.
There is a method available to override the id, resourceFactory.createResource(pathToFlowFile, attributesMap, overrideId)
However, this uses the Classloader to resolves files whereas it seems the createFileResource used a different means.
I cannot figure out how I am supposed to get the Classloader to recognize the flow files. I inspected it's classpaths and it only has the JAR dependencies and then dynamically created target/classes and target/test-classes folders. No reference to my project.
This is a Maven project, and the path I have from project root to flows is something like:
src/main/webapp/WEB-INF/flows/<flow-folder>/<flow-filename>.xml
I have seen webflow testing, unable to find flow model which reiterates what I discovered already, but for some reason I have the issue with the Classloader that other seems not to have.
Where I see people successfully referencing the flow files, they seem to either be relative from the project root or relative from the WebContext at src/main/webapp.
I am running the JUnit test with a Run Configuration in Eclipse and also with the maven test goal.
It is possible for me to configure a custom classpath for the Run Configuration in Eclipse to include the parent folder of the relative path I have defined as pathToFlowFile.
However, that does not help at all with Maven, which has the classloader/classpath issue still when executing the test goal.
I ran into something similar where I had to set the flow id and specify the path. So instead of using the FlowDefinitionResourceFactory I created a FlowDefinitionResource instance like below
FlowDefinitionResource resource = new FlowDefinitionResource(flowId, path, attributes);
So in your method you should have something like this
protected FlowDefinitionResource[] getModelResources(FlowDefinitionResourceFactory resourceFactory) {
FlowDefinitionResource resource = new FlowDefinitionResource("flowId", src/main/webapp/WEB-INF/flows/<flow-folder>/<flow-filename>.xml", null);
return new FlowDefinitionResource[] {resource};
}
If you get a FileNotFoundException just check the stacktrace to see where it is looking for the file.
Hope this helps.
M