| name | sqlitecpp-ci-workflows |
| description | SQLiteCpp CI workflow patterns. Use for GitHub Actions, AppVeyor, Travis, matrices, or test steps. |
SQLiteCpp CI Workflows
Common steps
- Checkout code.
- Initialize submodules:
git submodule update --init --recursive.
- Configure build directory (
build or builddir).
- Build and run tests with verbose output.
GitHub Actions (CMake)
- Matrix across Windows (MSVC/MinGW), Ubuntu, macOS.
- CMake config includes:
-DBUILD_SHARED_LIBS=ON
-DSQLITECPP_BUILD_TESTS=ON
-DSQLITECPP_BUILD_EXAMPLES=ON
-DSQLITECPP_RUN_CPPCHECK=OFF
-DSQLITECPP_RUN_CPPLINT=OFF
- Tests:
ctest --verbose --output-on-failure.
GitHub Actions (Meson)
- Use
pipx install meson ninja.
- Set
CC, CXX, and optional linkers.
- Setup with tests/examples and sqlite3 fallback:
meson setup builddir -DSQLITECPP_BUILD_TESTS=true -DSQLITECPP_BUILD_EXAMPLES=true --force-fallback-for=sqlite3.
- Build:
meson compile -C builddir.
- Test:
meson test -C builddir.
AppVeyor
- Visual Studio 2022/2015, Debug/Release, Win32/x64.
- CMake config:
-DSQLITECPP_BUILD_EXAMPLES=ON -DSQLITECPP_BUILD_TESTS=ON -DSQLITECPP_RUN_CPPCHECK=OFF.
- Build and run
ctest --output-on-failure.
Travis CI
- Multiple GCC/Clang versions across Linux and macOS.
- Variants for ASAN, GCov, Valgrind, shared libs, external sqlite3.
Coverage (Coveralls)
The Coverage workflow (.github/workflows/coverage.yml) builds with -DSQLITECPP_USE_GCOV=ON
(GCC only), runs ctest (both UnitTests and Example1Run), captures with lcov while
excluding /usr, googletest, sqlite3, examples and tests, and uploads to Coveralls.
To find which lines are still uncovered without rebuilding locally, query the Coveralls JSON API
for the master repo (the build id comes from the repo summary):
curl -s https://coveralls.io/github/SRombauts/SQLiteCpp.json
curl -s "https://coveralls.io/builds/<BUILD_ID>/source_files.json?per_page=100"
curl -s "https://coveralls.io/builds/<BUILD_ID>/source.json?filename=src/Statement.cpp"
Before giving up on a miss, work out the root cause; some look like artifacts but are fixable:
- Multi-line pack expansion (
(void)std::initializer_list<int>{ ... }; split across lines for
variadic bind/execute_many). When the per-element call can throw, gcov puts the post-call
edge on the standalone initializer_list line and reports it uncovered even though the calls run.
Collapse the expansion onto a single line so gcov attributes it to the tested call expression.
- A guard that looks unreachable may still be reachable through a public constructor. The
Column "Statement was destroyed" check is shadowed by checkRow() on the normal path, but
Column's constructor and Statement::TStatementPtr are public, so a test can construct a
Column from a null pointer directly. Check the public surface before assuming dead code.
Genuinely not worth chasing:
- Closing-brace lines that gcov marks uncovered as exception-unwinding landing pads. These are
compiler-version specific (a local gcc may not even reproduce what CI's gcc reports), and removing
them means contorting the function. Leave them.
- Platform-specific success paths, e.g. the normal return of
loadExtension, which the only
portable test cannot reach without a real loadable extension binary.
Cover the genuinely reachable lines and leave the rest.