Skip to content

Latest commit

 

History

History
96 lines (64 loc) · 2.7 KB

README.md

File metadata and controls

96 lines (64 loc) · 2.7 KB

RVerify

Verification application for regulation kernels.

Usage With VirtualEnv

This approach should work well on all systems, but problems can arise with bleeding edge distributions.

# Install virtualenv
sudo apt-get install virtualenv

# Download the repository
git clone https://github.com/HARPTech/RVerify.git
cd RVerify

# Create the virtual python environment
virtualenv -p python3 .

# Activate the environment
source ./bin/activate

# Install Required Packages (can take a few minutes)
pip3 install -r python-requirements.txt

# Go back to the parent directory
cd ..

# Try out the examples below!

Requirements (Manual Installation)

Install the python dependencies from requirements.txt. The dependencies are:

boto==2.48.0
numpy==1.14.5
pkg-resources==0.0.0
PyYAML==3.12
typed-ast==1.1.0
z3-solver==4.5.1.0.post2

On Ubuntu, the following packages are also needed:

python3-tk

Example Usage

These examples are given from the parent directory of this repository.

Check a given Regulation Kernel for known failure states

python3 -m RVerify -f RVerify/example-rk/kernel_code.py --check

Show the used approximations for trigonometric functions

python3 -m RVerify -f RVerify/example-rk/kernel_code.py --display-approximations

Display internally generated SMT2 code

python3 -m RVerify -f RVerify/example-rk/kernel_code.py --print-smt 

If this command is used to be directly processed with z3, the following switch is also useful --smt-include-get-model. This activates the output of (get-model) at the end of the output.

Switch for piping in python code

Python code can also be piped into the SDTIN of the tool. To use this, use the --stdin switch. Something like this works:

cat RVerify/example-rk/kernel_code.py | python3 -m RVerify --stdin --check

Accuracy changes of the checker

The checker internally used a set accuracy scale for the trigonometric lookup tables. This scale can be made more exact or more lenient. For this functionality, the --precision switch is used. Values > 1 make the checker more exact and compute times longer, values < 1 do the opposite.

Contributing and Mode of Development

This repository is hosted at phabricator.harptech.eu. A public mirror is provided at github.com/HARPTech/RVerify. Contributions are welcome and will be merged into the repository after they have been reviewed in the internal system.

Another related repository of this project is RTest, providing a visualisation of regulation kernels.