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Difference between revisions of "MMT/QVT Declarative (QVTd)"

< MMT
(History)
(Currently working on)
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* QVTu language as the unidirectional subset of QVTc
 
* QVTu language as the unidirectional subset of QVTc
 
* QVTm as the smallest declarative subset of QVTu that supports practical transformation programming
 
* QVTm as the smallest declarative subset of QVTu that supports practical transformation programming
* QVTs as a representation suitable for schedule analysis
+
* QVTs as a graphical representation suitable for schedule analysis
* QVTi as a still smaller syntactic subset of QVTm but with imperative semantics suitable for code synthesis.
+
* QVTi as an assembler-like with imperative connection semantics suitable for code synthesis.
  
 
Using these subset languages, we realize QVTc, QVTr and UMLX using the following transformation chains
 
Using these subset languages, we realize QVTc, QVTr and UMLX using the following transformation chains
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====Relation Overriding====  
 
====Relation Overriding====  
  
See [[QVTd Relation Overriding]]
+
The lack of adequate OMG specification is solved. There is indeed no QVTc support for overrides. Rather a QVTr2QVTr transformation replaces overrides declarations by when-not-predicates in each formerly overridden relation on each transitively overriding relation.
 +
 
 +
See [[QVTd Relation Overriding]] for the wroking considerations.
  
 
==Team==
 
==Team==

Revision as of 03:28, 20 August 2017

Overview

The QVT Declarative (QVTd) component aims to provide a complete Eclipse based IDE for the Core (QVTc) and Relations (QVTr) Languages defined by the OMG QVT Relations (QVTR) language. This goal includes all development components necessary for development of QVTc and QVTr programs and APIs to facilitate extension and reuse.

The QVTo component provides corresponding facilities for the Procedural Language.

QVT Declarative currently provides:

  • Editors for QVTc and QVTr
  • Parsers for QVTc and QVTr
  • Meta-models for QVTc and QVTr
  • Debugger for QVTi

(The EMOF-based implementations of the QVT models are the source of the normative models in ptc/2014-03-34 for OMG QVT 1.2.)

QVT Declarative will provide

  • a dedicated perspective
  • an execution environment for QVTc and QVTr
  • an integrated debugger for QVTc and QVTr

Documentation

New and Noteworthy

Specification

The base working document of this component is the OMG QVT 1.2 specification (Meta Object Facility (MOF) 2.0 Query/View/Transformation 1.2 Beta Specification).

The QVTd project includes a special development documentation to identify:

  • specification deviance (and explanations)
  • specification interpretation
  • specification issues

This page is a summary of specification related development choices. Its main purpose is to provide a basis for discussion with the community. Any feed back is welcome. Please use the QVTd newsgroup for the questions and the Bugzilla for issues.

Status and Roadmap

History

Date Task
July 2008 QVT 1.0 models, parsers and editors migrated from GTM/UMLX project
August 2008 Editors adapted to use IMP
November 2009 Models upgraded and used as basis for OMG QVT 1.1 models
August 2012 Work started on QVTr to QVTi chain
June 2013 QVTi editing and execution available for Kepler release
March 2014 Models upgraded and used as basis for OMG QVT 1.2 models
June 2014 QVTi debugging available for Luna release
June 2016 Preliminary QVTr/QVTc execution available for Neon release
June 2017 Better still preliminary UMLX/QVTr/QVTc execution available for Oxygen release

Currently working on

After an unsuccessful attempt to use ATL tooling to define a QVTr compiler, an execution engine is under development that uses transformations to support QVTc, QVTr and UMLX.

The OMG specification provides an almost monolithic QVTr to QVTc transformation written in QVTr. This is difficult to understand, and cannot be used until a QVTr execution engine is available.

We therefore transform UMLX to QVTr to QVTc to QVTu to QVTm to QVTs to QVTi to Java using Java transformations. These will be rewritten in UMLX/QVTr to demonstrate/achieve robustness.

More specifically, we recognize that any practical use of a transformation is unidirectional requiring the multi-directional flexibility of QVTr and QVTc to be resolved. We therefore define

  • QVTu language as the unidirectional subset of QVTc
  • QVTm as the smallest declarative subset of QVTu that supports practical transformation programming
  • QVTs as a graphical representation suitable for schedule analysis
  • QVTi as an assembler-like with imperative connection semantics suitable for code synthesis.

Using these subset languages, we realize QVTc, QVTr and UMLX using the following transformation chains

  • QVTi to TxVM/Java using Java
  • QVTs to QVTi using Java
  • QVTm to QVTs using Java
  • QVTu to QVTm using Java
  • QVTc to QVTu using Java
  • QVTr to QVTu using Java
  • UMLX to QVTr using Java

We anticipate that the QVTm language will provide a suitably simple declarative language that will allow for effective application of transformation composition optimizations. These optimizations will be essential to avoid the costs of naive transformation chains. We hope that other transformation languages will provide conversion to QVTm so that transformations developed in a variety of languages can be composed into an efficient composite transformation and then transformed for efficient execution by a good TxVM.

More details on these languages may be found in MMT/QVT Declarative Languages.

Recent work on improving the efficiency of the Eclipse OCL evaluator and providing a direct OCL to Java code generator demonstrates that the OCL evaluator can be regarded as the core of a TxVM. The M2M/QVTO project already exploits this by extending the interpretation capability and adding a debugger. The same interpretation approach should be possible for at least QVTi, QVTm and QVTu, perhaps for QVTc too. Extension of OCL's direct OCL to Java should eliminate the interpretation overheads. Realisation of transformation composition should eventually allow efficient provision of QVTr to QVTc to QVTu to ... and so enable acceptable performance for all languages.

Bug 350917 discusses extending the OCL evaluator with some pattern matching operations to assist in supporting transformations.

In-place and Copy Transformations

See QVTd In-place and Copy Transformations

Relation Overriding

The lack of adequate OMG specification is solved. There is indeed no QVTc support for overrides. Rather a QVTr2QVTr transformation replaces overrides declarations by when-not-predicates in each formerly overridden relation on each transitively overriding relation.

See QVTd Relation Overriding for the wroking considerations.

Team

The QVT Declarative project is developed by E.D.Willink

The current commiters are:

  • Ed Willink (lead)

Installation

A QVTd developement environment may be set up by M2M/QVT Declarative Installation.

Questions and discussions about QVT Declarative usage

Questions and discussions about the usage of QVT Declarative should take place on the eclipse.qvtd Eclipse newsgroup.

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