README.md

vdm-gradle-plugin

Contents

• Introduction
• Version
• Using the plugin
  • Publishing artifacts
  • Dependency management
• Tasks
  • Task summary
  • clean
  • dependencyUnpack
  • typeCheck
  • typeCheckTests
  • package
  • docGen
  • docPackage
  • assemble
  • test
  • check
  • build
• Configuration
• Examples

Introduction

When using VDM within a development environment that employs continuous delivery we need mechanisms that allows us to type-check, test and publish specifications in an automated manner. Tools like Maven and Gradle perform this function for programming languages such as Java and most CI/CD systems can handle projects built with these tools with minimal effort. This project introduces a Gradle plugin that enables the building and publishing of VDM specifications.

This plugin provides headless mechanisms to run the processes available in the Overture IDE (https://github.com/overturetool/overture) as well as adapting traditional dependency management, packaging and publishing provisions for VDM-SL.

Additionally, the plugin provides the capability to combine specifications with markdown documents to produce an integrated HTML rendering of the specification (see the docGen task)

More details regarding the motivations for the plugin are provided in this paper.

Version

This page was last updated, to correctly describe the use and behaviour of version 3.0.2 of the plug-in.

Version numbers are currently tied to the version of Overture that is used by the plugin. However, it is possible for a consumer to choose to use a different version of Overture. This is done, by excluding the version of Overture included by the plugin and then adding an explicit dependency on the required version. For example, to use 3.0.0 of Overture with version 3.0.2 of the plugin, you would include the plugin as follows:

buildscript {
    repositories {
        mavenCentral()
    }
    dependencies {
        classpath(group: 'com.anaplan.engineering', name: 'vdm-gradle-plugin', version: '3.0.2') {
            exclude group: 'org.overturetool.core'
        }
        classpath group: 'org.overturetool.core', name: 'interpreter', version: '3.0.0'
        classpath group: 'org.overturetool.core.annotations', name: 'provided', version: '3.0.0'
    }
}

Note that, this method will only work where there are no changes to the signatures of the VDMJ interface used by the plugin between Overture versions.

Gradle Version

Support for Gradle 4.x was deprecated with the release of 2.7.0 of this plugin, users should upgrade to Gradle 5.0+.

Using the plugin

In order to use the plugin, the following must be added to a build.gradle file in the root of the specification project:

buildscript {
    repositories {
        mavenCentral()
    }
    dependencies {
        classpath group: 'com.anaplan.engineering', name: 'vdm-gradle-plugin', version: '3.0.2'
    }
}

apply plugin: 'com.anaplan.engineering.vdm'

The plugin will automatically pick up any annotation classes that have been added to the classpath dependencies.

The tasks of the plugin are then invoked as they would be for any other Gradle build, for example:

gradle clean build

The tasks that the plugin makes available are described in tasks below.

The behaviour of the plugin can be customized by adding additional configuration to the build.gradle file. The options available are described in configuration below.

Publishing artifacts

It is trivial to instruct Gradle to publish the specification to a Maven-formatted artifact repository using the maven-publish plugin. The vdm-gradle-plugin will automatically mark artifacts—according to the configuration—for publishing when the maven-publish plugin has been applied to the project.

For example, given the following build.gradle file.

buildscript {
    repositories {
        mavenLocal()
        mavenCentral()
    }
    dependencies {
        classpath group: 'com.anaplan.engineering', name: 'vdm-gradle-plugin', version: '3.0.2'
    }
}

apply plugin: 'com.anaplan.engineering.vdm'
apply plugin: 'maven-publish'

group = 'com.acme'
version = '0.0.1'

repositories {
    mavenLocal()
    mavenCentral()
}

If gradle publishToMavenLocal is invoked, then all of the outputs of the assemble task will be published to the local Maven repository.

Note that, the maven-publish plugin requires the correct specification of group and version in the build.gradle file.

Dependency management

Once specifications have been published to an artifact repository other components can use them without adding them directly to the project. This facilitates componentization and encourages reuse.

Specifications are retrieved using the Gradle dependency mechanism via GAV co-ordinates from listed repositories. This plug-in will be able to consume other projects that have been built with this plug-in, but should also work with any other zip of specification files.

Dependencies are declared using a vdm configuration and by specifying the GAV co-ordinates in the build.gradle file. For example:

dependencies {
    vdm group: 'com.anaplan.car-specification', name: 'wheel', version: '1.0.0'
}

The specifications contained in these dependencies will be added to the list of files included in the typecheck phase, and will be present in the project for use in IDEs such as Overture.

By default, the plugin will also look for and download any test or documentation source artifacts associated with each dependency. This enables test data to be easily shared between projects and for documenation to be aggregated to produce sites describing the holisitic behaviour of a system. This behaviour can be configured.

Note that, it is not currently possible for the 'main' specification of one project to depend upon the 'test' specifications of another.

External library dependencies

Specifications can use external Java libraries (see Chapter 16 of the Overture IDE User Guide). These can be depended upon in the same way as other specification projects and these dependencies will be transitive in the same way.

For example, we can add the following to our build.gradle file:

dependencies {
    vdm group: 'com.anaplan.engineering', name: 'overture-iso8601-vdm', version: '1.0.0'
}

This will add a dependency to the VDM specification in overture-iso8601-vdm but transitively to the jar in overture-iso8601-lib. This jar will be added to the classpath when animating the projects tests, and it will also be added to the project's lib folder so that tests can be run from the Overture IDE.

When creating a library specification, we can just depend upon a published jar library, for example:

dependencies {
    vdm group: 'com.anaplan.engineering', name: 'overture-iso8601-lib', version: '1.0.0'
}

We would then need to add the VDM module that acted as an interface to the jar in our specification in the usual way.

Tasks

The Gradle lifecycle is controlled through tasks. Users can execute tasks from the command line and each task will perform some part of the build. The exact behaviour of a task can often be configured.

Tasks often depend upon other tasks and a task is executed, the graph of dependencies will be determined and all pre-requisite tasks executed in the appropriate order. The build task aggregates all of the principal tasks, and executing this task gives a quick way to completely assemble and check a project.

Task summary gives an overview of the tasks made available by this plugin and their behaviour is discussed in more detail below.

Task summary

The following table provides a summary of tasks and their dependencies.

Task	Depends on	Description
clean		Removes temporary files generated by the build
dependencyUnpack		Extracts dependency specifications to project build directory
typeCheck	dependencyUnpack	Parses and type checks specs in 'main' folder and all dependencies
typeCheckTests	dependencyUnpack	Parses and type checks specs in 'main' and 'test' folders and all dependencies
package	typeCheckTests	Creates zip file of sources including main specs, test specs and docs)
docGen	typeCheckTests	Processes markdown files and VDM source to generate project documentation
docPackage	docGen	Packages markdown and associated resource files
assemble	docPackage, package	Assembles the outputs of the project
test	typeCheckTests	Runs tests and produces JUnit formatted reports of results (currently supports VDM-SL only)
check	test	Runs all checks
build	assemble, check	Assembles and tests this project

Note that:

• Italicized tasks are part of Gradle's base lifecycle.
• Bold dependencies are optional depending upon a project's configuration.

clean

This task deletes all temporary files that the build generates. Essentially, this involves deleting the * ${project.buildDir}/vdm directory*.

dependencyUnpack

This task extracts all of the specifications contained in VDM dependencies ( see [Dependency management](#Dependency management)), making them available to subsequent tasks.

Dependencies are extracted to a directory in the project build directory. Each dependency is extracted to its own folder. The directory for a specific dependency is ${project.buildDir}/vdm/dependencies/${group}/${name}.

Test and documentation dependencies are also unpacked at this stage. The root folder for test dependencies is ${project.buildDir}/vdm/test-dependencies and for documentation dependencies ${project.buildDir}/vdm/md-dependencies.

typeCheck

This task collects all of the specification files in the main folder (src/main/vdm by default) and then parses those files. If parsing is successful, then the same specifications are type checked. If type checking is successful then a binary version of the complete specification is produced at ${project.buildDir}/vdm/generated.lib

typeCheckTests

This task collects all of the specification files in the main and tests folder (src/main/vdm and src/test/java by default) and then parses those files. If parsing is successful, then the same specifications are type checked. If type checking is successful then a binary version of the complete main and test specification is produced at ${project.buildDir}/vdm/generated.lib.

Note: currently main and test specifications are both combined into the generated binary specification (along with the specifications from dependencies). Ideally these would be separated and the type checking of test specifications will be isolated from, but dependent on, the main specifications, but the way in which Overture performs binary serialization does not currently provide us with the means to do this in the way that we would need.

docGen

This task will only be performed when using VDM-SL dialect.

Traditionally formal specifications methodologies have integrated formal and informal languages in LaTeX documents. This does not work in modern development environments where LaTeX is rarely used.

This plugin enables users to create markdown documents and incorporate elements of their VDM specifications using the directives in the table below.

Directive	Example	Description
{@mainModuleList}	{@mainModuleList}	Prints the list of main modules
{@testModuleList}	{@testModuleList}	Prints the list of test modules
{@link:Module`Definition}	{@link:Seq`drop}	Prints a link to a definition within a module
{@ref:Module`Definition}	{@ref:Seq`drop}	Prints a formatted definition from a module
(@a:Anchor}	{@a:GettingStarted}	Creates an anchor to which links can be created in the normal way e.g. [Getting started](#GettingStarted)
{@page:PageName:LinkText}	{@page:EngineSpec:the engine specification}	Create a link to a page from the same project
{@page:Group:Module:PageName:LinkText}	{@page:com.anaplan.engineering:set-toolkit:Sets:the set toolkit}	Create a link to a page that is provided by a dependency

This task collects all of the markdown files in the document source folder (src/main/md by default)—and any additional resources such as images—and uses them to create a collection of HTML files that render both markdown documents and VDM specifications. These files will be placed in ${project.buildDir}/vdm/docs.

Additionally a rendering of all main modules will be generated into ${project.buildDir}/vdm/docs/modules and all test modules into ${project.buildDir}/vdm/docs/testModules.

The vdm-pretty-printer is used to render VDM specifications using a Unicode/HTML strategy.

docPackage

This task will only be performed when using VDM-SL dialect.

This task collects all of the generated documentation files (from ${project.buildDir}/vdm/docs) and uses them to create a zip archive. This archive can then be deployed to a web server to provide a cloud-shareable complete specification . The task creates the zip archive at * ${project.buildDir}/libs/${project.name}-${project.version}-doc.zip*

package

This task creates a number of archives depending upon the contents of the project. These archives can be consumed by other specification projects when they are published and the relevant downstream dependencies added.

The archives created are:

• a collection of the specification files in the main folder (src/main/vdm by default) written to ${project.buildDir}/libs/${project.name}-${project.version}.zip
• a collection of the specification files in the test folder (src/main/vdm by default) written to ${project.buildDir}/libs/${project.name}-${project.version}-test.zip
• a collection of the markdown files, and other resources, in the main documentation folder (src/main/md by default) written to ${project.buildDir}/libs/${project.name}-${project.version}-md.zip

assemble

This task has no actions of its own, but ensures that other tasks have been executed such that all outputs of this project will be created.

test

VDMUnit has test framework support for VDM++, but VDM-SL support has not yet been fully integrated into Overture. Therefore this plug-in is a test harness as well as just a runner. The identification of tests is based on convention rather than configuration.

This task loads the previously type checked specification binary and identifies all modules whose name begins with ' Test'. Each of these modules is considered a test suite. In each module, the list of operations is examined and those whose name begins with 'Test' are considered test cases. Each test case is then evaluated. If the evaluation completes without error the test is considered to have passed. If the evaluation leads to a post condition error then the test is considered to have failed (we expect the post condition of the test operation to hold the test's assertions about the result). If the evaluation leads to another type of error (such as precondition or invariant failure then the test is considered to have errors.

For example, in the following block we have one test suite: TestArithmetic and three test cases TestAdd , TestMultiply and TestDivide. CheckSubtract is not a test case as its name does not start with 'Test'. When evaluated TestAdd will be recorded as a pass as the evaluation completes withour error. TestMultiply will be recorded as a failure as we have a post-condition failure. TestDivide will be recorded as an error there will ( presumably) be a failing precondition check to prevent division by zero.

module TestArithmetic

imports from Arithmetic

definitions

operations

  TestAdd:() ==> real
  TestAdd() == Arithmetic`Add(3, 4)
  post RESULT = 7;

  TestMultiply:() ==> real
  TestMultiply() == Arithmetic`Multiply(3, 4)
  post RESULT = 14;

  TestDivide:() ==> real
  TestDivide() == Arithmetic`Divide(3, 0)
  post RESULT = 0;

  CheckSubtract:() ==> real
  CheckSubtract() == Arithmetic`Subtract(6, 4)
  post RESULT = 2;

end TestArithmetic

In order that test results can be displayed in the UIs of common CI tools, the task records the result in JUnit format ( the most common test result, interchange format), producing one file per test suite in ${project.buildDir}/vdm/junitreports. As well as a simple result, any failure messages are retained and the evaluation duration recorded.

In some circumstances, it can be useful to write a test where a precondition, postcondition or invariant check is expected to fail. Without annotations in VDM there is no particularly clean way to indicate this. Such expected failures can be signalled to the test runner, by including one of the following strings in the name of the test:

• ExpectPreconditionFailure
• ExpectPostconditionFailure
• ExpectInvariantFailure

For example, in following module, the first test will pass as a precondition will fail, but the second will fail as a precondition failure is expected, but will not occur.

module TestExpectedFailures

definitions

functions

  AddSmallNumbers: nat * nat -> nat
  AddSmallNumbers(x, y) == x + y
  pre x < 10 and y < 10

operations

  TestAddSmallNumbers_Large_ExpectPreconditionFailure:() ==> nat
  TestAddSmallNumbers_Large_ExpectPreconditionFailure() == AddSmallNumbers(13, 4);

  TestAddSmallNumbers_Small_ExpectPreconditionFailure:() ==> nat
  TestAddSmallNumbers_Small_ExpectPreconditionFailure() == AddSmallNumbers(3, 4);

end TestExpectedFailures

Test coverage can also be enabled (see Configuration). When enabled HTML files are created in ${project.buildDir}/vdm/coverage. There is one HTML file generated for each source file. Each file contains the text of the module with green and red highlighting indicating the locations that were hit or missed by the tests respectively. Tooltips indicate the number of times a specific location was hit. A rudimentary summary of statistics is also generated in ${project.buildDir}/vdm/coverage/report.html.

If tests fail, then launch files are generated that enable the test to be easily run from within Overture. These launch files can be found in ${project.buildDir}/vdm/testLaunch. It is possible to configure this generation to produce launches for all tests or none at all.

check

This task has no actions of its own, but ensures that all verification tasks have been executed.

build

This task has no actions of its own, but ensures that all assembly and verification tasks have been executed.

Configuration

The plug-in can be configured by adding a vdm block to the build.gradle, for example:

vdm {
    dialect 'vdmpp'
    resourceFileTypes = ["svg", "docx"]
    prettyPrinter {
        minListLengthToUseNls = 3
    }
}

The following attributes can be configured:

Attribute	Default value	Description
dialect	"vmdsl"	The VDM dialect to use. One of: vdmsl, vdmpp, vdmrt
sourcesDir	"src/main/vdm"	The root directory for 'main' vdm specifications
testSourcesDir	"src/test/vdm"	The root directory for 'test' vdm specifications
docsDir	"src/md/vdm"	The root directory for markdown documentation
packaging.mdSource	true	If true, automatically produce a package of markdown source files
packaging.testSource	true	If true, automatically produce a package of test source files
dependencies.autoDependMd	true	If true, automatically download markdown source packages of dependencies
dependencies.autoDependTest	true	If true, automatically download test source packages of dependencies
prettyPrinter.logUnhandledCases	false	If true, log unhandled node types when pretty printing
prettyPrinter.minListLengthToUseNls	5	The min list length at which to print list items on new lines when pretty printing
resourceFileTypes	["svg", "png", "gif"]	The resource file types to include in generated documentation and associated packages
autoDocGeneration	true	If true, automatically generates documentation before packaging
recordCoverage	false	If true, generates HTML files illustrating test coverage of the specification
testLaunchGeneration	"FAILING"	Determines for which tests an Overture launch file will be generated. One of "ALL", "FAILING" or "NONE".

Examples

Example projects and appropriate documentation can be found here.

The plugin's functional tests execute most scenarios and thus can also provide examples of usage. The projects that are used in these functional tests are found in src/test-fn/resources.