CSimple
Since Camel 3.7
The CSimple language is compiled Simple language.
Different between CSimple and Simple
The simple language is a dynamic expression language which is runtime parsed into a set of Camel Expressions or Predicates.
The csimple language is parsed into regular Java source code and compiled together with all the other source code,
or compiled once during bootstrap via the camel-csimple-joor
module.
The simple langauge is generally very lightweight and fast, however for some use-cases with dynamic method calls via OGNL paths, then the simple language does runtime introspection and reflection calls. This has an overhead on performance, and was one of the reasons why csimple was created.
The csimple language requires to be typesafe and method calls via OGNL paths requires to know the type during parsing. This means for csimple languages expressions you would need to provide the class type in the script, where as simple introspects this at runtime.
In other words the simple language is using duck typing (if it looks like a duck, and quacks like a duck, then it is a duck) and csimple is using Java type (typesafety). If there is a type error then simple will report this at runtime, and with csimple there will be a Java compilation error.
Additional CSimple functions
The csimple language includes some additional functions to support common use-cases working with Collection
, Map
or array types.
The following functions bodyAsIndex, headerAsIndex, and exchangePropertyAsIndex is used for these use-cases as they are typed.
Function | Type | Description |
---|---|---|
bodyAsIndex(type, index) |
Type |
To be used for collecting the body from an existing |
mandatoryBodyAsIndex(type, index) |
Type |
To be used for collecting the body from an existing |
headerAsIndex(key, type, index) |
Type |
To be used for collecting a header from an existing |
mandatoryHeaderAsIndex(key, type, index) |
Type |
To be used for collecting a header from an existing |
exchangePropertyAsIndex(key, type, index) |
Type |
To be used for collecting an exchange property from an existing |
mandatoryExchangePropertyAsIndex(key, type, index) |
Type |
To be used for collecting an exchange property from an existing |
For example given the following simple expression:
Hello ${body[0].name}
This script has no type information, and the simple language will resolve this at runtime, by introspecting the message body
and if it’s a collection based then lookup the first element, and then invoke a method named getName
via reflection.
In csimple (compiled) we want to pre compile this and therefore the end user must provide type information with the bodyAsIndex function:
Hello ${bodyAsIndex(com.foo.MyUser, 0).name}
Compilation
The csimple language is parsed into regular Java source code and compiled together with all the other source code, or it can be compiled once during bootstrap via the camel-csimple-joor
module.
There are two ways to compile csimple
-
using the
camel-csimple-maven-plugin
generating source code at built time. -
using
camel-csimple-joor
which does runtime in-memory compilation during bootstrap of Camel.
Using camel-csimple-maven-plugin
The camel-csimple-maven-plugin
Maven plugin is used for discoving all the csimple scripts from the source code, and then automatic generate source code in the src/generated/java
folder, which then gets compiled together with all the other sources.
The maven plugin will do source code scanning of .java
and .xml
files (Java and XML DSL).
The scanner limits to detect certain code patterns, and it may miss discovering some csimple scripts if they are being used in unusual/rare ways.
The runtime compilation using camel-csimple-joor
does not have this limitation.
However the pros is that all of the csimple scripts will be compiled using the regular Java compiler and therefore everything
is included out of the box as .class
files in the application JAR file, and no additional dependencies is required at runtime.
To use camel-csimple-maven-plugin
you need to add it to your pom.xml
file as shown:
<plugins>
<!-- generate source code for csimple languages -->
<plugin>
<groupId>org.apache.camel</groupId>
<artifactId>camel-csimple-maven-plugin</artifactId>
<version>${camel.version}</version>
<executions>
<execution>
<id>generate</id>
<goals>
<goal>generate</goal>
</goals>
</execution>
</executions>
</plugin>
<!-- include source code generated to maven sources paths -->
<plugin>
<groupId>org.codehaus.mojo</groupId>
<artifactId>build-helper-maven-plugin</artifactId>
<version>3.1.0</version>
<executions>
<execution>
<phase>generate-sources</phase>
<goals>
<goal>add-source</goal>
<goal>add-resource</goal>
</goals>
<configuration>
<sources>
<source>src/generated/java</source>
</sources>
<resources>
<resource>
<directory>src/generated/resources</directory>
</resource>
</resources>
</configuration>
</execution>
</executions>
</plugin>
</plugins>
And then you must also add the build-helper-maven-plugin
Maven plugin to include src/generated
to the list of source folders for the Java compiler,
to ensure the generated source code is compiled and included in the application JAR file.
See the camel-example-csimple
example at Camel Examples which uses the maven plugin.
Using camel-csimple-joor
The jOOR library integrates with the Java compiler and performs runtime compilation of Java code.
The supported runtime when using camel-simple-joor
is intended for Java standalone, Spring Boot, Camel Quarkus and other microservices runtimes.
It is not supported in OSGi, Camel Karaf or any kind of Java Application Server runtime.
jOOR does not support runtime compilation with Spring Boot using fat jar packaging (https://github.com/jOOQ/jOOR/issues/69), it works with exploded classpath.
To use camel-simple-joor
you simply just add it as dependency to the classpath:
<dependency>
<groupId>org.apache.camel</groupId>
<artifactId>camel-csimple-joor</artifactId>
<version>x.x.x</version>
</dependency>
There is no need for adding Maven plugins to the pom.xml
file.
See the camel-example-csimple-joor
example at Camel Examples which uses the jOOR compiler.
CSimple Language options
The CSimple language supports 2 options, which are listed below.
Name | Default | Java Type | Description |
---|---|---|---|
resultType |
|
Sets the class name of the result type (type from output) |
|
trim |
|
|
Whether to trim the value to remove leading and trailing whitespaces and line breaks |
Limitations
Currently the csimple language does not support:
-
nested functions (aka functions inside functions)
-
the null safe operator (
?
).
For example the following scripts cannot compile:
Hello ${bean:greeter(${body}, ${header.counter})}
${bodyAs(MyUser)?.address?.zip} > 10000
Auto imports
The csimple language will automatic import from:
import java.util.*;
import java.util.concurrent.*;
import java.util.stream.*;
import org.apache.camel.*;
import org.apache.camel.util.*;
Configuration file
You can configure the csimple language in the camel-csimple.properties
file which is loaded from the root classpath.
For example you can add additional imports in the camel-csimple.properties
file by adding:
import com.foo.MyUser;
import com.bar.*;
import static com.foo.MyHelper.*;
You can also add aliases (key=value) where an alias will be used as a shorthand replacement in the code.
echo()=${bodyAs(String)} ${bodyAs(String)}
Which allows to use echo() in the csimple language script such as:
from("direct:hello")
.transform(csimple("Hello echo()"))
.log("You said ${body}");
The echo() alias will be replaced with its value resulting in a script as:
.transform(csimple("Hello ${bodyAs(String)} ${bodyAs(String)}"))
More documentation
See the Simple language as csimple has the same set of functions as simple language.