Dieser Inhalt ist in der von Ihnen ausgewählten Sprache nicht verfügbar.
Chapter 13. Introduction
Abstract
This chapter provides an overview of all the expression languages supported by Apache Camel.
13.1. Overview of the Languages
Table of expression and predicate languages
Table 13.1, “Expression and Predicate Languages” gives an overview of the different syntaxes for invoking expression and predicate languages.
Language | Static Method | Fluent DSL Method | XML Element | Annotation | Artifact |
---|---|---|---|---|---|
See Bean Integration in the Apache Camel Development Guide on the customer portal. |
|
|
|
| Camel core |
|
|
|
| Camel core | |
|
|
|
|
| |
|
|
|
|
| |
|
|
|
| Camel core | |
|
|
|
|
| |
|
|
|
|
| |
None |
|
|
|
| |
None |
|
|
|
| |
|
|
|
|
| |
|
|
|
|
| |
|
|
|
|
| |
|
|
|
| Camel core | |
|
|
|
|
| |
|
|
| N/A | Camel core | |
|
|
|
|
| |
Chapter 30, The Simple Language/Chapter 16, The File Language |
|
|
|
| Camel core |
|
|
|
|
| |
|
|
|
| Camel core | |
|
|
|
|
|
13.2. How to Invoke an Expression Language
Prerequisites
Before you can use a particular expression language, you must ensure that the required JAR files are available on the classpath. If the language you want to use is not included in the Apache Camel core, you must add the relevant JARs to your classpath.
If you are using the Maven build system, you can modify the build-time classpath simply by adding the relevant dependency to your POM file. For example, if you want to use the Ruby language, add the following dependency to your POM file:
<dependency> <groupId>org.apache.camel</groupId> <artifactId>camel-groovy</artifactId> <!-- Use the same version as your Camel core version --> <version>${camel.version}</version> </dependency>
If you are going to deploy your application in a Red Hat Fuse OSGi container, you also need to ensure that the relevant language features are installed (features are named after the corresponding Maven artifact). For example, to use the Groovy language in the OSGi container, you must first install the camel-groovy
feature by entering the following OSGi console command:
karaf@root> features:install camel-groovy
If you are using an expression or predicate in the routes, refer the value as an external resource by using resource:classpath:path
or resource:file:path
. For example, resource:classpath:com/foo/myscript.groovy
.
Camel on EAP deployment
The camel-groovy
component is supported by the Camel on EAP (Wildfly Camel) framework, which offers a simplified deployment model on the Red Hat JBoss Enterprise Application Platform (JBoss EAP) container.
Approaches to invoking
As shown in Table 13.1, “Expression and Predicate Languages”, there are several different syntaxes for invoking an expression language, depending on the context in which it is used. You can invoke an expression language:
As a static method
Most of the languages define a static method that can be used in any context where an org.apache.camel.Expression
type or an org.apache.camel.Predicate
type is expected. The static method takes a string expression (or predicate) as its argument and returns an Expression
object (which is usually also a Predicate
object).
For example, to implement a content-based router that processes messages in XML format, you could route messages based on the value of the /order/address/countryCode
element, as follows:
from("SourceURL") .choice .when(xpath("/order/address/countryCode = 'us'")) .to("file://countries/us/") .when(xpath("/order/address/countryCode = 'uk'")) .to("file://countries/uk/") .otherwise() .to("file://countries/other/") .to("TargetURL");
As a fluent DSL method
The Java fluent DSL supports another style of invoking expression languages. Instead of providing the expression as an argument to an Enterprise Integration Pattern (EIP), you can provide the expression as a sub-clause of the DSL command. For example, instead of invoking an XPath expression as filter(xpath("Expression"))
, you can invoke the expression as, filter().xpath("Expression")
.
For example, the preceding content-based router can be re-implemented in this style of invocation, as follows:
from("SourceURL") .choice .when().xpath("/order/address/countryCode = 'us'") .to("file://countries/us/") .when().xpath("/order/address/countryCode = 'uk'") .to("file://countries/uk/") .otherwise() .to("file://countries/other/") .to("TargetURL");
As an XML element
You can also invoke an expression language in XML, by putting the expression string inside the relevant XML element.
For example, the XML element for invoking XPath in XML is xpath
(which belongs to the standard Apache Camel namespace). You can use XPath expressions in a XML DSL content-based router, as follows:
<from uri="file://input/orders"/> <choice> <when> <xpath>/order/address/countryCode = 'us'</xpath> <to uri="file://countries/us/"/> </when> <when> <xpath>/order/address/countryCode = 'uk'</xpath> <to uri="file://countries/uk/"/> </when> <otherwise> <to uri="file://countries/other/"/> </otherwise> </choice>
Alternatively, you can specify a language expression using the language
element, where you specify the name of the language in the language
attribute. For example, you can define an XPath expression using the language
element as follows:
<language language="xpath">/order/address/countryCode = 'us'</language>
As an annotation
Language annotations are used in the context of bean integration . The annotations provide a convenient way of extracting information from a message or header and then injecting the extracted data into a bean’s method parmeters.
For example, consider the bean, myBeanProc
, which is invoked as a predicate of the filter()
EIP. If the bean’s checkCredentials
method returns true
, the message is allowed to proceed; but if the method returns false
, the message is blocked by the filter. The filter pattern is implemented as follows:
// Java MyBeanProcessor myBeanProc = new MyBeanProcessor(); from("SourceURL") .filter().method(myBeanProc, "checkCredentials") .to("TargetURL");
The implementation of the MyBeanProcessor
class exploits the @XPath
annotation to extract the username
and password
from the underlying XML message, as follows:
// Java import org.apache.camel.language.XPath; public class MyBeanProcessor { boolean void checkCredentials( @XPath("/credentials/username/text()") String user, @XPath("/credentials/password/text()") String pass ) { // Check the user/pass credentials... ... } }
The @XPath
annotation is placed just before the parameter into which it gets injected. Notice how the XPath expression explicitly selects the text node, by appending /text()
to the path, which ensures that just the content of the element is selected, not the enclosing tags.
As a Camel endpoint URI
Using the Camel Language component, you can invoke a supported language in an endpoint URI. There are two alternative syntaxes.
To invoke a language script stored in a file (or other resource type defined by Scheme
), use the following URI syntax:
language://LanguageName:resource:Scheme:Location[?Options]
Where the scheme can be file:
, classpath:
, or http:
.
For example, the following route executes the mysimplescript.txt
from the classpath:
from("direct:start") .to("language:simple:classpath:org/apache/camel/component/language/mysimplescript.txt") .to("mock:result");
To invoke an embedded language script, use the following URI syntax:
language://LanguageName[:Script][?Options]
For example, to run the Simple language script stored in the script
string:
String script = URLEncoder.encode("Hello ${body}", "UTF-8"); from("direct:start") .to("language:simple:" + script) .to("mock:result");
For more details about the Language component, see Language in the Apache Camel Component Reference Guide.