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Uppaal Clock Difference Diagram Library

Clock Difference Diagrams (CDD) is a BDD-like data-structure for effective representation and manipulation of certain non-convex subsets of the Euclidean space, notably those encountered in verification of timed automata. It is shown that all set-theoretic operations including inclusion checking may be carried out efficiently on Clock Difference Diagrams. Other clock operations needed for fully symbolic analysis of timed automata e.g. future- and reset-operations, can be obtained based on a tight normal form for CDD. Experimental results demonstrate significant space-savings. For instance, in nine industrial examples the savings are on average 42% and with a moderate increase in runtime.

"Clock Difference Diagrams" by Kim Guldstrand Larsen, Justin Pearson, Carsten Weise and Wang Yi. "Nordic Journal of Computing", 1999. [pdf] [bib]

"Efficient Timed Reachability Analysis Using Clock Difference Diagrams" by Gerd Behrmann, Kim Guldstrand Larsen, Justin Pearson, Carsten Weise and Wang Yi. "Computer Aided Verification, 11th International Conference, CAV'99", Trento, Italy, July 6-10, 1999, Proceedings. [doi:10.1007/3-540-48683-6_30] [bib]

Compile

The following packages need to be installed: cmake gcc xxHash doctest boost.

In addition, UUtils and UDBM are needed, which can be installed system-wide, or locally by running the script getlibs.sh.

Get the dependencies, compile the source into build directory and run the unit tests:

unset CMAKE_TOOLCHAIN_FILE # If it was set before
./getlibs.sh # If UUtils and UDBM are not installed system-wide
cmake -B build -DTESTING=ON
cmake --build build
(cd build ; ctest --output-on-failure)

Cross-compile For Linux 32-bit (i686):

export CMAKE_TOOLCHAIN_FILE=$PWD/toolchains/i686-linux.cmake 
./getlibs.sh
cmake -B build-linux32 -DTESTING=ON
cmake --build build-linux32
(cd build-linux32 ; ctest --output-on-failure)

Cross-compile For Windows 64-bit (x64_86) using MinGW/MSYS2:

export CMAKE_TOOLCHAIN_FILE=$PWD/toolchains/x86_64-w64-mingw32.cmake
./getlibs.sh
cmake -B build-win64 -DTESTING=ON -DSTATIC=ON
cmake --build build-win64
(cd build-win64 ; ctest --output-on-failure)

Cross-compile For Windows 32-bit (i686) using MinGW/MSYS2:

export CMAKE_TOOLCHAIN_FILE=$PWD/toolchains/i686-w64-mingw32.cmake
./getlibs.sh
cmake -B build-win32 -DTESTING=ON -DSTATIC=ON
cmake --build build-win32
(cd build-win32 ; ctest --output-on-failure)

Debugging

Address-sanitizer can be enabled by adding -DASAN=ON option to cmake build generation line. This relies on the compiler support (currently GCC does not support sanitizers on Windows).