Configuring Tasks Lazily

Knowing when and where a particular value is configured is difficult to track as a build grows in complexity. Gradle provides several ways to manage this using lazy configuration.

Understanding Lazy properties

Gradle provides lazy properties, which delay calculating a property’s value until it’s actually required.

Lazy properties provide three main benefits:

Deferred Value Resolution: Allows wiring Gradle models without needing to know when a property’s value will be known. For example, you may want to set the input source files of a task based on the source directories property of an extension, but the extension property value isn’t known until the build script or some other plugin configures them.
Automatic Task Dependency Management: Connects output of one task to input of another, automatically determining task dependencies. Property instances carry information about which task, if any, produces their value. Build authors do not need to worry about keeping task dependencies in sync with configuration changes.
Improved Build Performance: Avoids resource-intensive work during configuration, impacting build performance positively. For example, when a configuration value comes from parsing a file but is only used when functional tests are run, using a property instance to capture this means that the file is parsed only when the functional tests are run (and not when clean is run, for example).

Gradle represents lazy properties with two interfaces:

Provider

Represents a value that can only be queried and cannot be changed.

Properties with these types are read-only.
The method Provider.get() returns the current value of the property.
A Provider can be created from another Provider using Provider.map(Transformer).
Many other types extend Provider and can be used wherever a Provider is required.

Property

Represents a value that can be queried and changed.

Properties with these types are configurable.
Property extends the Provider interface.
The method Property.set(T) specifies a value for the property, overwriting whatever value may have been present.
The method Property.set(Provider) specifies a Provider for the value for the property, overwriting whatever value may have been present. This allows you to wire together Provider and Property instances before the values are configured.
A Property can be created by the factory method ObjectFactory.property(Class).

Lazy properties are intended to be passed around and only queried when required. This typically happens during the execution phase.

The following demonstrates a task with a configurable greeting property and a read-only message property:

build.gradle.kts

abstract class Greeting : DefaultTask() { (1)
    @get:Input
    abstract val greeting: Property<String> (2)

    @Internal
    val message: Provider<String> = greeting.map { it + " from Gradle" } (3)

    @TaskAction
    fun printMessage() {
        logger.quiet(message.get())
    }
}

tasks.register<Greeting>("greeting") {
    greeting.set("Hi") (4)
    greeting = "Hi" (5)
}

build.gradle

abstract class Greeting extends DefaultTask { (1)
    @Input
    abstract Property<String> getGreeting() (2)

    @Internal
    final Provider<String> message = greeting.map { it + ' from Gradle' } (3)

    @TaskAction
    void printMessage() {
        logger.quiet(message.get())
    }
}

tasks.register("greeting", Greeting) {
    greeting.set('Hi') (4)
    greeting = 'Hi' (5)
}

1	A task that displays a greeting
2	A configurable greeting
3	Read-only property calculated from the greeting
4	Configure the greeting
5	Alternative notation to calling Property.set()

$ gradle greeting

> Task :greeting
Hi from Gradle

BUILD SUCCESSFUL in 0s
1 actionable task: 1 executed

The Greeting task has a property of type Property<String> to represent the configurable greeting and a property of type Provider<String> to represent the calculated, read-only, message. The message Provider is created from the greeting Property using the map() method; its value is kept up-to-date as the value of the greeting property changes.

Creating a Property or Provider instance

Neither Provider nor its subtypes, such as Property, are intended to be implemented by a build script or plugin. Gradle provides factory methods to create instances of these types instead.

In the previous example, two factory methods were presented:

ObjectFactory.property(Class) create a new Property instance. An instance of the ObjectFactory can be referenced from Project.getObjects() or by injecting ObjectFactory through a constructor or method.
Provider.map(Transformer) creates a new Provider from an existing Provider or Property instance.

See the Quick Reference for all of the types and factories available.

A Provider can also be created by the factory method ProviderFactory.provider(Callable).

There are no specific methods to create a provider using a groovy.lang.Closure.

When writing a plugin or build script with Groovy, you can use the map(Transformer) method with a closure, and Groovy will convert the closure to a Transformer.

Similarly, when writing a plugin or build script with Kotlin, the Kotlin compiler will convert a Kotlin function into a Transformer.

Connecting properties together

An important feature of lazy properties is that they can be connected together so that changes to one property are automatically reflected in other properties.

Here is an example where the property of a task is connected to a property of a project extension:

build.gradle.kts

// A project extension
interface MessageExtension {
    // A configurable greeting
    abstract val greeting: Property<String>
}

// A task that displays a greeting
abstract class Greeting : DefaultTask() {
    // Configurable by the user
    @get:Input
    abstract val greeting: Property<String>

    // Read-only property calculated from the greeting
    @Internal
    val message: Provider<String> = greeting.map { it + " from Gradle" }

    @TaskAction
    fun printMessage() {
        logger.quiet(message.get())
    }
}

// Create the project extension
val messages = project.extensions.create<MessageExtension>("messages")

// Create the greeting task
tasks.register<Greeting>("greeting") {
    // Attach the greeting from the project extension
    // Note that the values of the project extension have not been configured yet
    greeting = messages.greeting
}

messages.apply {
    // Configure the greeting on the extension
    // Note that there is no need to reconfigure the task's `greeting` property. This is automatically updated as the extension property changes
    greeting = "Hi"
}

build.gradle

// A project extension
interface MessageExtension {
    // A configurable greeting
    Property<String> getGreeting()
}

// A task that displays a greeting
abstract class Greeting extends DefaultTask {
    // Configurable by the user
    @Input
    abstract Property<String> getGreeting()

    // Read-only property calculated from the greeting
    @Internal
    final Provider<String> message = greeting.map { it + ' from Gradle' }

    @TaskAction
    void printMessage() {
        logger.quiet(message.get())
    }
}

// Create the project extension
project.extensions.create('messages', MessageExtension)

// Create the greeting task
tasks.register("greeting", Greeting) {
    // Attach the greeting from the project extension
    // Note that the values of the project extension have not been configured yet
    greeting = messages.greeting
}

messages {
    // Configure the greeting on the extension
    // Note that there is no need to reconfigure the task's `greeting` property. This is automatically updated as the extension property changes
    greeting = 'Hi'
}

$ gradle greeting

> Task :greeting
Hi from Gradle

BUILD SUCCESSFUL in 0s
1 actionable task: 1 executed

This example calls the Property.set(Provider) method to attach a Provider to a Property to supply the value of the property. In this case, the Provider happens to be a Property as well, but you can connect any Provider implementation, for example one created using Provider.map()

Working with files

In Working with Files, we introduced four collection types for File-like objects:

Read-only Type	Configurable Type
FileCollection	ConfigurableFileCollection
FileTree	ConfigurableFileTree

Read-only Type

Configurable Type

FileCollection

ConfigurableFileCollection

FileTree

ConfigurableFileTree

All of these types are also considered lazy types.

There are more strongly typed models used to represent elements of the file system: Directory and RegularFile. These types shouldn’t be confused with the standard Java File type as they are used to tell Gradle that you expect more specific values such as a directory or a non-directory, regular file.

Gradle provides two specialized Property subtypes for dealing with values of these types: RegularFileProperty and DirectoryProperty. ObjectFactory has methods to create these: ObjectFactory.fileProperty() and ObjectFactory.directoryProperty().

A DirectoryProperty can also be used to create a lazily evaluated Provider for a Directory and RegularFile via DirectoryProperty.dir(String) and DirectoryProperty.file(String) respectively. These methods create providers whose values are calculated relative to the location for the DirectoryProperty they were created from. The values returned from these providers will reflect changes to the DirectoryProperty.

build.gradle.kts

// A task that generates a source file and writes the result to an output directory
abstract class GenerateSource : DefaultTask() {
    // The configuration file to use to generate the source file
    @get:InputFile
    abstract val configFile: RegularFileProperty

    // The directory to write source files to
    @get:OutputDirectory
    abstract val outputDir: DirectoryProperty

    @TaskAction
    fun compile() {
        val inFile = configFile.get().asFile
        logger.quiet("configuration file = $inFile")
        val dir = outputDir.get().asFile
        logger.quiet("output dir = $dir")
        val className = inFile.readText().trim()
        val srcFile = File(dir, "${className}.java")
        srcFile.writeText("public class ${className} { }")
    }
}

// Create the source generation task
tasks.register<GenerateSource>("generate") {
    // Configure the locations, relative to the project and build directories
    configFile = layout.projectDirectory.file("src/config.txt")
    outputDir = layout.buildDirectory.dir("generated-source")
}

// Change the build directory
// Don't need to reconfigure the task properties. These are automatically updated as the build directory changes
layout.buildDirectory = layout.projectDirectory.dir("output")

build.gradle

// A task that generates a source file and writes the result to an output directory
abstract class GenerateSource extends DefaultTask {
    // The configuration file to use to generate the source file
    @InputFile
    abstract RegularFileProperty getConfigFile()

    // The directory to write source files to
    @OutputDirectory
    abstract DirectoryProperty getOutputDir()

    @TaskAction
    def compile() {
        def inFile = configFile.get().asFile
        logger.quiet("configuration file = $inFile")
        def dir = outputDir.get().asFile
        logger.quiet("output dir = $dir")
        def className = inFile.text.trim()
        def srcFile = new File(dir, "${className}.java")
        srcFile.text = "public class ${className} { ... }"
    }
}

// Create the source generation task
tasks.register('generate', GenerateSource) {
    // Configure the locations, relative to the project and build directories
    configFile = layout.projectDirectory.file('src/config.txt')
    outputDir = layout.buildDirectory.dir('generated-source')
}

// Change the build directory
// Don't need to reconfigure the task properties. These are automatically updated as the build directory changes
layout.buildDirectory = layout.projectDirectory.dir('output')

$ gradle generate

> Task :generate
configuration file = /home/user/gradle/samples/src/config.txt
output dir = /home/user/gradle/samples/output/generated-source

BUILD SUCCESSFUL in 0s
1 actionable task: 1 executed

$ gradle generate

> Task :generate
configuration file = /home/user/gradle/samples/kotlin/src/config.txt
output dir = /home/user/gradle/samples/kotlin/output/generated-source

BUILD SUCCESSFUL in 0s
1 actionable task: 1 executed

This example creates providers that represent locations in the project and build directories through Project.getLayout() with ProjectLayout.getBuildDirectory() and ProjectLayout.getProjectDirectory().

To close the loop, note that a DirectoryProperty, or a simple Directory, can be turned into a FileTree that allows the files and directories contained in the directory to be queried with DirectoryProperty.getAsFileTree() or Directory.getAsFileTree(). From a DirectoryProperty or a Directory, you can create FileCollection instances containing a set of the files contained in the directory with DirectoryProperty.files(Object...) or Directory.files(Object...).

Working with task inputs and outputs

Many builds have several tasks connected together, where one task consumes the outputs of another task as an input.

To make this work, we need to configure each task to know where to look for its inputs and where to place its outputs. Ensure that the producing and consuming tasks are configured with the same location and attach task dependencies between the tasks. This can be cumbersome and brittle if any of these values are configurable by a user or configured by multiple plugins, as task properties need to be configured in the correct order and locations, and task dependencies kept in sync as values change.

The Property API makes this easier by keeping track of the value of a property and the task that produces the value.

As an example, consider the following plugin with a producer and consumer task which are wired together:

build.gradle.kts

abstract class Producer : DefaultTask() {
    @get:OutputFile
    abstract val outputFile: RegularFileProperty

    @TaskAction
    fun produce() {
        val message = "Hello, World!"
        val output = outputFile.get().asFile
        output.writeText( message)
        logger.quiet("Wrote '${message}' to ${output}")
    }
}

abstract class Consumer : DefaultTask() {
    @get:InputFile
    abstract val inputFile: RegularFileProperty

    @TaskAction
    fun consume() {
        val input = inputFile.get().asFile
        val message = input.readText()
        logger.quiet("Read '${message}' from ${input}")
    }
}

val producer = tasks.register<Producer>("producer")
val consumer = tasks.register<Consumer>("consumer")

consumer {
    // Connect the producer task output to the consumer task input
    // Don't need to add a task dependency to the consumer task. This is automatically added
    inputFile = producer.flatMap { it.outputFile }
}

producer {
    // Set values for the producer lazily
    // Don't need to update the consumer.inputFile property. This is automatically updated as producer.outputFile changes
    outputFile = layout.buildDirectory.file("file.txt")
}

// Change the build directory.
// Don't need to update producer.outputFile and consumer.inputFile. These are automatically updated as the build directory changes
layout.buildDirectory = layout.projectDirectory.dir("output")

build.gradle

abstract class Producer extends DefaultTask {
    @OutputFile
    abstract RegularFileProperty getOutputFile()

    @TaskAction
    void produce() {
        String message = 'Hello, World!'
        def output = outputFile.get().asFile
        output.text = message
        logger.quiet("Wrote '${message}' to ${output}")
    }
}

abstract class Consumer extends DefaultTask {
    @InputFile
    abstract RegularFileProperty getInputFile()

    @TaskAction
    void consume() {
        def input = inputFile.get().asFile
        def message = input.text
        logger.quiet("Read '${message}' from ${input}")
    }
}

def producer = tasks.register("producer", Producer)
def consumer = tasks.register("consumer", Consumer)

consumer.configure {
    // Connect the producer task output to the consumer task input
    // Don't need to add a task dependency to the consumer task. This is automatically added
    inputFile = producer.flatMap { it.outputFile }
}

producer.configure {
    // Set values for the producer lazily
    // Don't need to update the consumer.inputFile property. This is automatically updated as producer.outputFile changes
    outputFile = layout.buildDirectory.file('file.txt')
}

// Change the build directory.
// Don't need to update producer.outputFile and consumer.inputFile. These are automatically updated as the build directory changes
layout.buildDirectory = layout.projectDirectory.dir('output')

$ gradle consumer

> Task :producer
Wrote 'Hello, World!' to /home/user/gradle/samples/output/file.txt

> Task :consumer
Read 'Hello, World!' from /home/user/gradle/samples/output/file.txt

BUILD SUCCESSFUL in 0s
2 actionable tasks: 2 executed

$ gradle consumer

> Task :producer
Wrote 'Hello, World!' to /home/user/gradle/samples/kotlin/output/file.txt

> Task :consumer
Read 'Hello, World!' from /home/user/gradle/samples/kotlin/output/file.txt

BUILD SUCCESSFUL in 0s
2 actionable tasks: 2 executed

In the example above, the task outputs and inputs are connected before any location is defined. The setters can be called at any time before the task is executed, and the change will automatically affect all related input and output properties.

Another important thing to note in this example is the absence of any explicit task dependency. Task outputs represented using Providers keep track of which task produces their value, and using them as task inputs will implicitly add the correct task dependencies.

Implicit task dependencies also work for input properties that are not files:

build.gradle.kts

abstract class Producer : DefaultTask() {
    @get:OutputFile
    abstract val outputFile: RegularFileProperty

    @TaskAction
    fun produce() {
        val message = "Hello, World!"
        val output = outputFile.get().asFile
        output.writeText( message)
        logger.quiet("Wrote '${message}' to ${output}")
    }
}

abstract class Consumer : DefaultTask() {
    @get:Input
    abstract val message: Property<String>

    @TaskAction
    fun consume() {
        logger.quiet(message.get())
    }
}

val producer = tasks.register<Producer>("producer") {
    // Set values for the producer lazily
    // Don't need to update the consumer.inputFile property. This is automatically updated as producer.outputFile changes
    outputFile = layout.buildDirectory.file("file.txt")
}
tasks.register<Consumer>("consumer") {
    // Connect the producer task output to the consumer task input
    // Don't need to add a task dependency to the consumer task. This is automatically added
    message = producer.flatMap { it.outputFile }.map { it.asFile.readText() }
}

build.gradle

abstract class Producer extends DefaultTask {
    @OutputFile
    abstract RegularFileProperty getOutputFile()

    @TaskAction
    void produce() {
        String message = 'Hello, World!'
        def output = outputFile.get().asFile
        output.text = message
        logger.quiet("Wrote '${message}' to ${output}")
    }
}

abstract class Consumer extends DefaultTask {
    @Input
    abstract Property<String> getMessage()

    @TaskAction
    void consume() {
        logger.quiet(message.get())
    }
}

def producer = tasks.register('producer', Producer) {
    // Set values for the producer lazily
    // Don't need to update the consumer.inputFile property. This is automatically updated as producer.outputFile changes
    outputFile = layout.buildDirectory.file('file.txt')
}
tasks.register('consumer', Consumer) {
    // Connect the producer task output to the consumer task input
    // Don't need to add a task dependency to the consumer task. This is automatically added
    message = producer.flatMap { it.outputFile }.map { it.asFile.text }
}

$ gradle consumer

> Task :producer
Wrote 'Hello, World!' to /home/user/gradle/samples/build/file.txt

> Task :consumer
Hello, World!

BUILD SUCCESSFUL in 0s
2 actionable tasks: 2 executed

$ gradle consumer

> Task :producer
Wrote 'Hello, World!' to /home/user/gradle/samples/kotlin/build/file.txt

> Task :consumer
Hello, World!

BUILD SUCCESSFUL in 0s
2 actionable tasks: 2 executed

Working with collections

Gradle provides two lazy property types to help configure Collection properties.

These work exactly like any other Provider and, just like file providers, they have additional modeling around them:

For List values the interface is called ListProperty.
You can create a new ListProperty using ObjectFactory.listProperty(Class) and specifying the element type.
For Set values the interface is called SetProperty.
You can create a new SetProperty using ObjectFactory.setProperty(Class) and specifying the element type.

This type of property allows you to overwrite the entire collection value with HasMultipleValues.set(Iterable) and HasMultipleValues.set(Provider) or add new elements through the various add methods:

HasMultipleValues.add(T): Add a single element to the collection
HasMultipleValues.add(Provider): Add a lazily calculated element to the collection
HasMultipleValues.addAll(Provider): Add a lazily calculated collection of elements to the list

Just like every Provider, the collection is calculated when Provider.get() is called. The following example shows the ListProperty in action:

build.gradle.kts

abstract class Producer : DefaultTask() {
    @get:OutputFile
    abstract val outputFile: RegularFileProperty

    @TaskAction
    fun produce() {
        val message = "Hello, World!"
        val output = outputFile.get().asFile
        output.writeText( message)
        logger.quiet("Wrote '${message}' to ${output}")
    }
}

abstract class Consumer : DefaultTask() {
    @get:InputFiles
    abstract val inputFiles: ListProperty<RegularFile>

    @TaskAction
    fun consume() {
        inputFiles.get().forEach { inputFile ->
            val input = inputFile.asFile
            val message = input.readText()
            logger.quiet("Read '${message}' from ${input}")
        }
    }
}

val producerOne = tasks.register<Producer>("producerOne")
val producerTwo = tasks.register<Producer>("producerTwo")
tasks.register<Consumer>("consumer") {
    // Connect the producer task outputs to the consumer task input
    // Don't need to add task dependencies to the consumer task. These are automatically added
    inputFiles.add(producerOne.get().outputFile)
    inputFiles.add(producerTwo.get().outputFile)
}

// Set values for the producer tasks lazily
// Don't need to update the consumer.inputFiles property. This is automatically updated as producer.outputFile changes
producerOne { outputFile = layout.buildDirectory.file("one.txt") }
producerTwo { outputFile = layout.buildDirectory.file("two.txt") }

// Change the build directory.
// Don't need to update the task properties. These are automatically updated as the build directory changes
layout.buildDirectory = layout.projectDirectory.dir("output")

build.gradle

abstract class Producer extends DefaultTask {
    @OutputFile
    abstract RegularFileProperty getOutputFile()

    @TaskAction
    void produce() {
        String message = 'Hello, World!'
        def output = outputFile.get().asFile
        output.text = message
        logger.quiet("Wrote '${message}' to ${output}")
    }
}

abstract class Consumer extends DefaultTask {
    @InputFiles
    abstract ListProperty<RegularFile> getInputFiles()

    @TaskAction
    void consume() {
        inputFiles.get().each { inputFile ->
            def input = inputFile.asFile
            def message = input.text
            logger.quiet("Read '${message}' from ${input}")
        }
    }
}

def producerOne = tasks.register('producerOne', Producer)
def producerTwo = tasks.register('producerTwo', Producer)
tasks.register('consumer', Consumer) {
    // Connect the producer task outputs to the consumer task input
    // Don't need to add task dependencies to the consumer task. These are automatically added
    inputFiles.add(producerOne.get().outputFile)
    inputFiles.add(producerTwo.get().outputFile)
}

// Set values for the producer tasks lazily
// Don't need to update the consumer.inputFiles property. This is automatically updated as producer.outputFile changes
producerOne.configure { outputFile = layout.buildDirectory.file('one.txt') }
producerTwo.configure { outputFile = layout.buildDirectory.file('two.txt') }

// Change the build directory.
// Don't need to update the task properties. These are automatically updated as the build directory changes
layout.buildDirectory = layout.projectDirectory.dir('output')

$ gradle consumer

> Task :producerOne
Wrote 'Hello, World!' to /home/user/gradle/samples/output/one.txt

> Task :producerTwo
Wrote 'Hello, World!' to /home/user/gradle/samples/output/two.txt

> Task :consumer
Read 'Hello, World!' from /home/user/gradle/samples/output/one.txt
Read 'Hello, World!' from /home/user/gradle/samples/output/two.txt

BUILD SUCCESSFUL in 0s
3 actionable tasks: 3 executed

$ gradle consumer

> Task :producerOne
Wrote 'Hello, World!' to /home/user/gradle/samples/kotlin/output/one.txt

> Task :producerTwo
Wrote 'Hello, World!' to /home/user/gradle/samples/kotlin/output/two.txt

> Task :consumer
Read 'Hello, World!' from /home/user/gradle/samples/kotlin/output/one.txt
Read 'Hello, World!' from /home/user/gradle/samples/kotlin/output/two.txt

BUILD SUCCESSFUL in 0s
3 actionable tasks: 3 executed

Working with maps

Gradle provides a lazy MapProperty type to allow Map values to be configured. You can create a MapProperty instance using ObjectFactory.mapProperty(Class, Class).

Similar to other property types, a MapProperty has a set() method that you can use to specify the value for the property. Some additional methods allow entries with lazy values to be added to the map.

build.gradle.kts

abstract class Generator: DefaultTask() {
    @get:Input
    abstract val properties: MapProperty<String, Int>

    @TaskAction
    fun generate() {
        properties.get().forEach { entry ->
            logger.quiet("${entry.key} = ${entry.value}")
        }
    }
}

// Some values to be configured later
var b = 0
var c = 0

tasks.register<Generator>("generate") {
    properties.put("a", 1)
    // Values have not been configured yet
    properties.put("b", providers.provider { b })
    properties.putAll(providers.provider { mapOf("c" to c, "d" to c + 1) })
}

// Configure the values. There is no need to reconfigure the task
b = 2
c = 3

build.gradle

abstract class Generator extends DefaultTask {
    @Input
    abstract MapProperty<String, Integer> getProperties()

    @TaskAction
    void generate() {
        properties.get().each { key, value ->
            logger.quiet("${key} = ${value}")
        }
    }
}

// Some values to be configured later
def b = 0
def c = 0

tasks.register('generate', Generator) {
    properties.put("a", 1)
    // Values have not been configured yet
    properties.put("b", providers.provider { b })
    properties.putAll(providers.provider { [c: c, d: c + 1] })
}

// Configure the values. There is no need to reconfigure the task
b = 2
c = 3

$ gradle generate

> Task :generate
a = 1
b = 2
c = 3
d = 4

BUILD SUCCESSFUL in 0s
1 actionable task: 1 executed

Applying a convention to a property

Often, you want to apply some convention, or default value to a property to be used if no value has been configured. You can use the convention() method for this. This method accepts either a value or a Provider, and this will be used as the value until some other value is configured.

build.gradle.kts

tasks.register("show") {
    val property = objects.property(String::class)

    // Set a convention
    property.convention("convention 1")

    println("value = " + property.get())

    // Can replace the convention
    property.convention("convention 2")
    println("value = " + property.get())

    property.set("explicit value")

    // Once a value is set, the convention is ignored
    property.convention("ignored convention")

    doLast {
        println("value = " + property.get())
    }
}

build.gradle

tasks.register("show") {
    def property = objects.property(String)

    // Set a convention
    property.convention("convention 1")

    println("value = " + property.get())

    // Can replace the convention
    property.convention("convention 2")
    println("value = " + property.get())

    property.set("explicit value")

    // Once a value is set, the convention is ignored
    property.convention("ignored convention")

    doLast {
        println("value = " + property.get())
    }
}

$ gradle show
value = convention 1
value = convention 2

> Task :show
value = explicit value

BUILD SUCCESSFUL in 0s
1 actionable task: 1 executed

Making a property unmodifiable

Most properties of a task or project are intended to be configured by plugins or build scripts so that they can use specific values for that build.

For example, a property that specifies the output directory for a compilation task may start with a value specified by a plugin. Then a build script might change the value to some custom location, then this value is used by the task when it runs. However, once the task starts to run, we want to prevent further property changes. This way we avoid errors that result from different consumers, such as the task action, Gradle’s up-to-date checks, build caching, or other tasks, using different values for the property.

Lazy properties provide several methods that you can use to disallow changes to their value once the value has been configured. The finalizeValue() method calculates the final value for the property and prevents further changes to the property.

libVersioning.version.finalizeValue()

When the property’s value comes from a Provider, the provider is queried for its current value, and the result becomes the final value for the property. This final value replaces the provider and the property no longer tracks the value of the provider. Calling this method also makes a property instance unmodifiable and any further attempts to change the value of the property will fail. Gradle automatically makes the properties of a task final when the task starts execution.

The finalizeValueOnRead() method is similar, except that the property’s final value is not calculated until the value of the property is queried.

modifiedFiles.finalizeValueOnRead()

In other words, this method calculates the final value lazily as required, whereas finalizeValue() calculates the final value eagerly. This method can be used when the value may be expensive to calculate or may not have been configured yet. You also want to ensure that all consumers of the property see the same value when they query the value.

Using the Provider API

Guidelines to be successful with the Provider API:

The Property and Provider types have all of the overloads you need to query or configure a value. For this reason, you should follow the following guidelines:
- For configurable properties, expose the Property directly through a single getter.
- For non-configurable properties, expose an Provider directly through a single getter.
Avoid simplifying calls like obj.getProperty().get() and obj.getProperty().set(T) in your code by introducing additional getters and setters.
When migrating your plugin to use providers, follow these guidelines:
- If it’s a new property, expose it as a Property or Provider using a single getter.
- If it’s incubating, change it to use a Property or Provider using a single getter.
- If it’s a stable property, add a new Property or Provider and deprecate the old one. You should wire the old getter/setters into the new property as appropriate.