TLC

As of version 1.3.7-beta, ProB can make use of TLC as an alternative model checker to validate B specifications.

Download and Installation

TLC has been released as an open source project, under the MIT License. To use TLC in the ProB Tcl/Tk GUI you have to select the menu command "Download and Install TLA Tools" in the Help menu.

Download TLA Tools.png

How to use TLC

First you have to open a B specification in the ProB GUI. Then you can select the menu command "Model Check with TLC" in the "Verify->External Tools" menu.

Model Checking With TLC.png

You can use TLC to find the following kinds of errors in the B specification:

  • Deadlocks
  • Invariant violations
  • Assertion errors
  • Goal found (a desired state is reached)
  • Properties violations (i.e, axioms over the B constants are false)
  • Well-definedness violations
  • Temporal formulas violations

In some cases, TLC reports a trace leading to the state where the error (e.g. deadlock or invariant violation) occur. Such traces are automatically replayed in the ProB animator (displayed in the history pane) to give an optimal feedback.

Model Checking With TLC Trace.png

When to use TLC

TLC is extremely valuable when it comes to explicit state model checking for large state spaces. Otherwise, TLC has no constraint solving abilities.

Translation from B to TLA+

TLC is a very efficient model checker for specifications written in TLA+. To validate B specification with TLC we developed the translator TLC4B which automatically translates a B specification to TLA+, invokes the model checker TLC, and translates the results back to B. Counter examples produced by TLC are double checked by ProB and replayed in the ProB animator. The translation to TLA+ and back to B is completely hidden to the user. Hence, the user needs no knowledge of TLA+ to use TLC.

There is a technical report that describes our translation from B to TLA+.

Limitations

The following constructs are currently not supported by the TLC4B translator:

  • Refinement specifications
  • Machine inclusion (SEES, INCLUDES, ..)
  • Sequential composition statement (G;H)