Dextool is a framework for writing plugins using libclang. The main focus is tools for testing and static analysis.
The plugins in a standard installation of Dextool are:
- Analyze. Analyze C/C++ code to generate complexity numbers such as McCabe.
- C TestDouble. Analyze C code to generate a test double implementation.
- C++ TestDouble. Analyze C++ code to generate a test double implementation.
- Mutate. Mutation testing tool for C/C++.
- UML. Analyze C/C++ code to generate PlantUML diagrams.
- Analyze: production ready.
- C TestDouble: production ready. The API of the generated code and how it behaves is stable.
- C++ TestDouble: production ready. The API of the generated code and how it behaves is stable.
- Mutate: production ready.
- UML: beta.
To build and run dextool, you will need the following packages:
- llvm >= 4.0 Tested versions are 4.0, 5.0, 6.0, 7.0, 8.0, 10.0, 11.0, 12.0, 13.0, 14.0. Note that these are the versions that are tested or have been tested. Dextool usually am able to work with never versions so if you version isn't in this list then please just try it. Otherwise leave an issue on github.
- llvm-xyz-dev >= 4.0
- libclang-xyz-dev >= 4.0
- cmake >= 3.5
- sqlite3 >= 3.24.0
- D compiler. See the following files for the tested versions. They are guaranteed to work.
NOTE only ldc is able to build a release build of dextool. dmd is for debug build. Which mean that for a normal user it is ldc that you should use.
Most of them can be installed using your package manager.
Installation instructions for Ubuntu is available here. Dockerfile are another alternative (they MAY be outdated until the CI is fixed to check them so if they fail for you ping me on github):
The easiest way to build and run dextool is to do it via dub
:
dub run dextool -- -h
But if you want to, these are the steps to build it using CMake:
git clone https://github.com/joakim-brannstrom/dextool.git
cd dextool
mkdir build
cd build
cmake -DCMAKE_INSTALL_PREFIX=/path/to/where/to/install/dextool/binaries ..
make install
Done! Have fun. Don't be shy to report any issue that you find.
To build dextool comfortably you need ~16Gbyte of RAM. Compiling
dextool-mutate.o
consume ~9Gbyte.
You probably ran out of memory when compiling dextool-mutate.o
. Run cmake
with -DLOW_MEM=ON
and single threaded.
This method of running dextool assume that the llvm-config
commands found in
$PATH
is named and behave as the ones on Ubuntu. Such that llvm-config-12
returns the flags for llvm-12 and clang-12. There are also some assumptions of
what the libraries that are installed are named. On Fedora for example the
clang-libraries are clang-cpp
and clang
. So if this method of running
dextool fail and you are on ubuntu then you need to install the necessary
dependencies otherwise use the other installation method together with the more
complex flags for specifying the llvm/clang versions.
The most common reason for why component_tests
fail is that clang++ try to
use the latest GCC that is installed, but the c++ standard library is not
installed for that compiler.
Try to compile the following code with clang++:
#include <string>
int main(int argc, char **argv) {
return 0;
}
clang++ -v test.cpp
If it fails with something like this:
test.cpp:1:10: fatal error: 'string' file not found
it means that you need to install the c++ standard library for your compiler.
In the output look for this line:
/usr/bin/../lib/gcc/x86_64-linux-gnu/XYZ/../../../../include/c++
From that line we can deduce that the package to install in Ubuntu is:
sudo apt install libstdc++-XYZ-dev
To build dextool, the dev packages are required. Dextool is optimistic and assume that the latest and greatest version of llvm+libclang should be used. But this also requires that the dev packages are installed.
If you get this error:
libclang_interop.hpp:13:10: fatal error: clang/Analysis/CFG.h: No such file or directory
#include <clang/Analysis/CFG.h>
It means that you need to install llvm-x.y-dev
and libclang-x.y-dev
for the
version that Dextool detected.
cmake/introspect_llvm_.d
try to derive the version of llvm/clang from
llvm-config
. If this fail or you want to force a specific version of
llvm/clang you do it with these flags:
The following variables are defined:
- LIBCLANG_LDFLAGS - flags to use when linking with libclang
- LIBLLVM_VERSION - libLLVM full version (e.g. 8_0_1)
- LIBLLVM_MAJOR_VERSION - libLLVM major version (e.g. 8)
- LIBLLVM_LDFLAGS - flags to use when linking with libllvm
- LIBLLVM_CXX_FLAGS - the required flags to build C++ code using LLVM
- LIBLLVM_CXX_EXTRA_FLAGS - extra flags to use when build C++ code using LLVM
- LIBLLVM_FLAGS - the required flags by llvm-d such as version
- LIBLLVM_LIBS - the required libraries for linking LLVM
Lets say you have version 8.0.1
of LLVM installed but llvm-config returns
0.0.0
. introspect_llvm.d
will in this case fail to detect the version of
LLVM thus what version of the bindings is unknown, which will default to the
latest known by introspect_llvm.d
. This is probably not the version you have.
To tell cmake what version it is you can do the following:
# llvm-config --version
cmake -DLIBLLVM_VERSION="LLVM_8_0_1" \
-DLIBLLVM_MAJOR_VERSION="8"
If you also need to provide the includes and libs you would need to add the
rest of the flags, otherwise they are derived from whatever llvm-config
that
is in $PATH
.
# uses llvm-config --libdir to find where libclang.so is installed. Some
# additional flags are added but these are optional.
-DLIBLCANG_LDFLAGS="-Wl,--enable-new-dtags -Wl,--no-as-needed -L/foo/bar/libs -Wl,-rpath,/foo/bar/libs -l:libclang.so.8"
# llvm-config --libdir is searched for these libraries.
-DLIBCLANG_LIBS="-lclangFrontendTool -lclangRewriteFrontend -lclangDynamicASTMatchers -lclangFrontend -lclangASTMatchers -lclangParse -lclangSerialization -lclangRewrite -lclangSema -lclangEdit -lclangAnalysis -lclangAST -lclangLex -lclangBasic -l:libclang.so"
# llvm-config --cxxflags
-DLIBLLVM_CXX_FLAGS="-I/foo/bar/llvm-include -std=c++11 -fno-exceptions -fno-rtti"
# llvm-config --ldflags
-DLIBLLVM_LDFLAGS="-L/foo/smurf/libs -Wl,-rpath,/foo/smurf/libs"
# use llvm-config --libs and llvm-config --system-libs to find all libraries to link with.
# all those that are prefixed with libLLVM.
-DLIBLLVM_LIBS="-lLLVMXRay -lLLVMTextApi /*and maaaany more or just one depending on how you have installed LLVM*/"
The sqlite3 library source code with a CMake build file in the vendor's directory. It is intended for those old OSs that have too old versions of SQLite.
To use it do something like this.
mkdir sqlite3
cd sqlite3 && cmake ../vendor/sqlite && make && cd ..
# setup dextool build to use it
mkdir build
cd build && cmake .. -DSQLITE3_LIB="-L/opt/sqlite -lsqlite3"
If you have a D compiler installed in such a way that it isn't available in
your $PATH
you can specify it manually.
cmake .. -DD_COMPILER=/foo/bar/dmd/2.088/linux64/bin/dmd
First of all just test and see if dextool do build with your version of llvm.
The tool introspect_llvm.d
reuse the latest bindings if a new version is
detected but no bindings exists. The C API rarely change so it normally just
works.
If it doesn't then follow these steps:
- Follow the instructions in
libs/libclang/README.md
to generate the new bindings. - Open the file
cmake/introspect_llvm.d
. - Update the array of search paths in the function
llvmSearchPaths
with the new location.
See the usage examples in respective plugin directory.
Jacob Carlborg for his excellent DStep. It was used as a huge inspiration for this code base. Without DStep, Dextool wouldn't exist.