Kotlin Code Generator
The Kotlin source code generator reads Pkl classes and generates corresponding Kotlin classes with equally named properties.
Together with Object Mapping, code generation provides a complete solution for consuming Pkl configuration as statically typed Kotlin objects. Kotlin code never drifts from the configuration structure defined in Pkl, and the entire configuration tree can be code-completed in Kotlin IDEs.
Installation
The code generator is offered as Gradle plugin, Java library, and CLI.
Gradle Plugin
See Installation in the Gradle plugin chapter.
Java Library
The pkl-codegen-kotlin
library is available from Maven Central.
It requires Java 17 or higher and Kotlin 1.3 or higher.
Gradle
To use the library in a Gradle project, declare the following dependency:
-
Kotlin
-
Groovy
dependencies {
implementation("org.pkl-lang:pkl-codegen-kotlin:0.26.3")
}
repositories {
mavenCentral()
}
dependencies {
implementation "org.pkl-lang:pkl-codegen-kotlin:0.26.3"
}
repositories {
mavenCentral()
}
Maven
To use the library in a Maven project, declare the following dependency:
<dependency>
<groupId>org.pkl-lang</groupId>
<artifactId>pkl-codegen-kotlin</artifactId>
<version>0.26.3</version>
</dependency>
CLI
The CLI is bundled with the library. As we do not currently ship the CLI as a self-contained Jar, we recommend to provision it with a Maven compatible build tool as shown in Java Library.
Usage
The code generator is offered as Gradle plugin, Java library, and CLI.
Gradle Plugin
See Kotlin Code Generation in the Gradle plugin chapter.
Java Library
The library offers two APIs: a high-level API that corresponds to the CLI, and a lower-level API that provides additional features and control.
The entry points for these APIs are org.pkl.codegen.kotlin.CliKotlinCodeGenerator
and org.pkl.codegen.kotlin.KotlinCodeGenerator
, respectively.
For more information, refer to the KDoc documentation.
CLI
As mentioned in Installation, the CLI is bundled with the library.
To run the CLI, execute the library Jar or its org.pkl.codegen.kotlin.Main
main class.
Synopsis: java -cp <classpath> -jar pkl-codegen-kotlin.jar [<options>] <modules>
<modules>
-
The absolute or relative URIs of the modules to generate classes for. Relative URIs are resolved against the working directory.
Options
--generate-kdoc
Default: (flag not set)
Flag that indicates to generate Kdoc based on doc comments for Pkl modules, classes, and properties.
Common code generator options:
--indent
Default: " "
(two spaces)
Example: "\t"
(one tab)
The characters to use for indenting generated source code.
-o, --output-dir
Default: (not set)
Example: generated/
The directory where generated source code is placed.
Relative paths are resolved against the working directory.
--generate-spring-boot
Default: (not set)
Flag that indicates to generate config classes for use with Spring Boot.
--implement-serializable
Default: (not set)
Whether to make generated classes implement java.io.Serializable
.
--rename
Default: (none)
Example: foo.=com.example.foo.
Allows to change default class and package names (derived from Pkl module names) in the generated code.
When you need the generated class or package names to be different from the default names derived from the Pkl module names, you can define a rename mapping, where the key is the original Pkl module name prefix, and the value is its replacement.
When you do, the generated code’s package
declarations, class names, as well as file locations, will be modified according to this mapping.
The prefixes are replaced literally, which means that dots at the end are important. If you want to rename packages only, in most cases, you must ensure that you have an ending dot on both sides of a mapping (except for an empty mapping, if you use it), otherwise you may get unexpected results:
// Assuming the following arguments: --rename com.foo.=x // Dot on the left only --rename org.bar=y. // Dot on the right only --rename net.baz=z // No dots // The following renames will be made: "com.foo.bar" -> "xbar" // Target prefix merged into the suffix "org.bar.baz" -> "y..baz" // Double dot, invalid name "net.baz.qux" -> "z.qux" // Looks okay, but... "net.bazqux" -> "zqux" // ...may cut the name in the middle.
When computing the appropriate target name, the longest matching prefix is used:
// Assuming the following arguments: --rename com.foo.Main=w.Main --rename com.foo.=x. --rename com.=y. --rename =z. // The following renames will be made: com.foo.Main -> w.Main com.foo.bar -> x.bar com.baz.qux -> y.baz.qux org.foo.bar -> z.org.foo.bar
Repeat this option to define multiple mappings. Keys can be arbitrary strings, including an empty string. Values must be valid dot-separated fully qualified class name prefixes, possibly terminated by a dot.
Common CLI options:
--allowed-modules
Default: pkl:,file:,modulepath:,https:,repl:,package:,projectpackage:
Comma-separated list of URI patterns that determine which modules can be loaded and evaluated.
Patterns are matched against the beginning of module URIs.
(File paths have been converted to file:
URLs at this stage.)
At least one pattern needs to match for a module to be loadable.
Both source modules and transitive modules are subject to this check.
--allowed-resources
Default: env:,prop:,package:,projectpackage:
Comma-separated list of URI patterns that determine which external resources can be read.
Patterns are matched against the beginning of resource URIs.
At least one pattern needs to match for a resource to be readable.
--cache-dir
Default: ~/.pkl/cache
Example: /path/to/module/cache/
The cache directory for storing packages.
--no-cache
Disable caching of packages.
-e, --env-var
Default: OS environment variables for the current process
Example: MY_VAR=myValue
Sets an environment variable that can be read by Pkl code with read("env:<envVarName>")
.
Repeat this option to set multiple environment variables.
-h, --help
Display help information.
--module-path
Default: (empty)
Example: dir1:zip1.zip:jar1.jar
Directories, ZIP archives, or JAR archives to search when resolving modulepath:
URIs.
Paths are separated by the platform-specific path separator (:
on *nix, ;
on Windows).
Relative paths are resolved against the working directory.
-p, --property
Default: (none)
Example: myProp=myValue
Sets an external property that can be read by Pkl code with read("prop:<propertyName>")
.
Repeat this option to set multiple external properties.
--root-dir
Default: (none)
Example: /some/path
Root directory for file:
modules and resources.
If set, access to file-based modules and resources is restricted to those located under the specified root directory.
Any symlinks are resolved before this check is performed.
--settings
Default: (none)
Example: mySettings.pkl
File path of the Pkl settings file to use.
If not set, ~/.pkl/settings.pkl
or defaults specified in the pkl.settings
standard library module are used.
-t, --timeout
Default: (none)
Example: 30
Duration, in seconds, after which evaluation of a source module will be timed out.
Note that a timeout is treated the same as a program error in that any subsequent source modules will not be evaluated.
-v, --version
Display version information.
-w, --working-dir
Base path that relative module paths passed as command-line arguments are resolved against. Defaults to the current working directory.
--ca-certificates
Default: (none)
Example: /some/path/certificates.pem
Path to a file containing CA certificates to be used for TLS connections.
Setting this option replaces the existing set of CA certificates bundled into the CLI. Certificates need to be X.509 certificates in PEM format.
For other methods of configuring certificates, see CA Certificates.
--http-proxy
Default: (none)
Example: http://proxy.example.com:1234
Configures HTTP connections to connect to the provided proxy address.
The URI must have scheme http
, and may not contain anything other than a host and port.
--http-no-proxy
Default: (none)
Example: example.com,169.254.0.0/16
Comma separated list of hosts to which all connections should bypass the proxy.
Hosts can be specified by name, IP address, or IP range using CIDR notation.
Full Example
For a ready-to-go example with full source code, see codegen-kotlin in the pkl/pkl-examples repository.