clafer: Compiles Clafer models to other formats: Alloy, JavaScript, JSON, HTML, Dot.

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Clafer is a general purpose, lightweight, structural modeling language developed at GSD Lab, University of Waterloo, and MODELS group at IT University of Copenhagen. Lightweight modeling aims at improving the understanding of the problem domain in the early stages of software development and determining the requirements with fewer defects. Clafer's goal is to make modeling more accessible to a wider range of users and domains. The tool provides a reference language implementation. It translates models to other formats (e.g. Alloy, JavaScript, JSON) to allow for reasoning with existing tools.

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Versions 0.3.5,, 0.3.6,, 0.3.7, 0.3.8, 0.3.9, 0.3.10, 0.4.0, 0.4.1, 0.4.2,, 0.4.3, 0.4.3, 0.4.4, 0.4.5
Change log
Dependencies aeson (>= && <, array (>=, base (>= && <5), bytestring (>=, clafer (==0.4.3), cmdargs (>=0.10.12), containers (>=, data-stringmap (>=, directory (>=, executable-path (>=0.0.3), file-embed (>=0.0.9), filepath (>=, HTTP (>=4000.2.10), json-builder (>=0.3), lens (>=, lens-aeson (>=, mtl (>=, mtl-compat (>=0.2.1), network (>=, network-uri (>=, parsec (>=3.1.5), process (>=, split (>=0.2.2), string-conversions (>=, text (>=, transformers (>=, transformers-compat (>=0.3 && <0.5) [details]
License MIT
Author Kacper Bak, Jimmy Liang, Michal Antkiewicz, Ed Zulkoski, Luke Michael Brown, Paulius Juodisius, Rafael Olaechea
Maintainer Michal Antkiewicz <>
Category Model
Home page
Source repo head: git clone git://
Uploaded by mantkiew at 2015-12-22T17:36:27Z




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Clafer, the language


Clafer is a general-purpose lightweight structural modeling language developed by GSD Lab, University of Waterloo, and MODELS group at IT University of Copenhagen. Clafer can be used for modeling of static hierarchical structures but has no support for modeling the change of the structures over time (behavior). The main goal of Clafer is to make modeling more accessible to a wider range of users and domains.

There are many possible applications of Clafer; however, three are prominent:

  1. Product-Line Modeling - aims at representing and managing commonality and variability of assets in product lines and creating and verifying product configurations. Clafer naturally supports multi-staged configuration.

  2. Multi-Objective Product Optimization - aims at finding a set of products in a given product line that are optimal with respect to a set of objectives. Clafer multi-objective optimizer generates a Pareto front of optimal product configurations.

  3. Domain Modeling - aims at improving the understanding of the problem domain in the early stages of software development and determining the requirements with fewer defects. This is also known as Concept Modeling or Ontology Modeling.


Clafer, the compiler

Clafer compiler provides a reference implementation of Clafer, the language. It translates models in Clafer to other formats (e.g., Alloy, JSON, JS, HTML, DOT) to allow for reasoning and processing with existing tools (Alloy Analyzer, Choco3, and GraphViz).

Currently, the compiler is used by


Getting the Clafer compiler

Clafer can be installed from a binary distribution (preferred), from Hackage, and from the source code.

Dependencies for running

Regardless of the installation method, the following are


Installation from binaries

Binary distributions of the release 0.4.3 of Clafer Tools for Windows, Mac, and Linux, can be downloaded from Clafer Tools - Binary Distributions.

  1. download the binaries and unpack <target directory> of your choice
  2. add the <target directory> to your system path so that the executables can be found

Installation from Hackage

Clafer is now available on Hackage and it can be installed using either stack or cabal-install.

Installation using stack

Stack is the only requirement: no other Haskell tooling needs to be installed because stack will automatically install everything that's needed.

  1. install stack
  2. execute stack install clafer

Installation using cabal-install


  1. Install GHC
  2. cabal update
  3. cabal install alex happy
  4. cabal install clafer
  5. on Windows cd C:\Users\<user>\AppData\Roaming\cabal\i386-windows-ghc-7.10.2\clafer-0.4.3
  6. on Linux ca ~/.cabal/share/x86_64-linux-ghc-7.10.2/clafer-0.4.3/
  7. to automatically download Alloy jars, execute

Installation from the source code


On Windows

Important: branches must correspond

All related projects are following the simultaneous release model. The branch master contains releases, whereas the branch develop contains code under development. When building the tools, the branches should match. Releases from branches 'masterare guaranteed to work well together. Development versions from branchesdevelop` should work well together but this might not always be the case.


  1. in some <source directory> of your choice, execute
  1. in <source directory>/clafer, execute stack setup. This will install all dependencies, build tools, and MSYS2 (on Windows).
  2. first time only on Windows
  1. cd <source directory>


  1. Execute


On Windows, use / with the make command instead of \, e.g., make install to=/c/clafer-tools-0.4.3/

Integration with Sublime Text 2/3

See ClaferToolsST

Integration with VIM

See clafer-vim


Clafer Compiler

(As printed by clafer --help)

Clafer 0.4.3

clafer [OPTIONS] [FILE]

Common flags:
  -m --mode=CLAFERMODE                    Generated output type. Available
                                          CLAFERMODEs are: 'alloy' (default,
                                          Alloy 4.2); 'json' (intermediate
                                          representation of Clafer model);
                                          'clafer' (analyzed and desugared
                                          clafer model); 'html' (original model
                                          in HTML); 'graph' (graphical
                                          representation written in DOT
                                          language); 'cvlgraph' (cvl notation
                                          representation written in DOT
                                          language); 'choco' (Choco constraint
                                          programming solver). Multiple modes
                                          can be specified at the same time,
                                          e.g., '-m alloy -m html'.
  -o --console-output                     Output code on console.
  -i --flatten-inheritance                Flatten inheritance ('alloy' mode
     --timeout-analysis=INT               Timeout for analysis.
  -l --no-layout                          Don't resolve off-side rule layout.
  -n --nl --new-layout                    Use new fast layout resolver
  -c --check-duplicates                   Check duplicated clafer names in
                                          the entire model.
  -f --skip-resolver                      Skip name resolution.
  -k --keep-unused                        Keep uninstantated abstract clafers
                                          ('alloy' mode only).
  -s --no-stats                           Don't print statistics.
  -v --validate                           Validate outputs of all modes. Uses
                                          '<tooldir>/alloy4.2.jar' for Alloy
                                          models, '<tooldir>/chocosolver.jar'
                                          for Alloy models, and Clafer
                                          translator for desugared Clafer
                                          models. Use '--tooldir' to override
                                          the default location ('.') of these
     --tooldir=DIR                        Specify the tools directory
                                          ('validate' only). Default: '.'
                                          (current directory).
  -a --alloy-mapping                      Generate mapping to Alloy source
                                          code ('alloy' mode only).
     --self-contained                     Generate a self-contained html
                                          document ('html' mode only).
     --add-graph                          Add a graph to the generated html
                                          model ('html' mode only). Requires
                                          the "dot" executable to be on the
                                          system path.
     --sr --show-references               Whether the links for references
                                          should be rendered. ('html' and
                                          'graph' modes only).
     --add-comments                       Include comments from the source
                                          file in the html output ('html' mode
  -e --ecore2clafer                       Translate an ECore model into
     --ss=SCOPESTRATEGY --scope-strategy  Use scope computation strategy:
                                          none or simple (default).
     --check-afm --afm                    Throws an error if the cardinality
                                          of any of the clafers is above 1.
     --meta-data                          Generate a 'fully qualified
                                          name'-'unique ID' map ('.cfr-map').
                                          In Alloy and Choco modes, generate
                                          the scopes map ('.cfr-scope').
  -? --help                               Display help message
  -V --version                            Print version information
     --numeric-version                    Print just the version number

The dependencies among the command line arguments are described on the model wiki.

Multiple modes can be used at the same time. For example,

clafer model.cfr -m alloy -m json -m html -m graph --self-contained --show-references --no-stats

The mode -m alloy is only the default mode if no other modes are given. When other modes are given, the mode -m alloy must be added explicitly if needed.

Additionally, [OPTIONS] can also be specified directly in the model file by inserting the following compiler directive as the first line of the file:


for example

//# --keep-unused -m=alloy

Options given at command line override the options given in the file using //# which, in turn, override the defaults.

Using compiler directives

Compiler directives are comments of the form

//# <directive name>

The following directives are markers of locations in the input files for different purposes:

Developing Clafer

Here is some information about the development of the Clafer compiler.


We are following the simplified version of the successful Git branching model. The branch master is for releases and hot fixes only. The branch develop is for minor development and for integration of features from feature branches. For any substantial work, branch off from develop and create a pull request back into develop after the work is completed. We do testing and code review before merging into develop. If the develop is ahead, merge it into the feature branch and perform integration testing there. To make a release, we create a pull request from develop into master. We tag master with version numbers after each release merge.


We have switched to Haskell Tool Stack. Install the tool first.


We have both automated tests and regression tests.

To run the automated tests (including both unit tests and doctests), execute

stack test

To only run unit tests, execute stack test test-suite.

To only run doctests, execute stack test doctests.

Note: it is still possible to run cabal test as previously; however, the Makefile uses stack by default.

For instructions for adding new modules to the doctest suite, see cabal integration.

To run all the automated tests and the regression tests, execute

make test

We do test-driven development in the following way:

  1. create a test case Clafer model in either test/positive or test/negative depending on whether a test case should compile successfully or return an error. For example, see a positive test case test/positive/redefinition.cfr.
  2. produce the intended compiler output automatically if possible and manually fix the output. Save the intended output as a regression test case. For example, see test/regression/redefinition.cfr.reg.
  3. implement the feature to reproduce the intended output: compiler the test case and execute
cd test
make diffRegressions

this will show you how the current output diverges from the intended output.

Modifying the grammar

We are using a customized version of BNCF. Clone the repository and install a binary of bnfc so that it's visible in your PATH. After changing the grammar, execute

make grammar

Need help?