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NOTES.md

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Other Notes of Interest

This example implements an approach where dependencies provide a lib_something.cmake file which specifies source, includes, build flags, etc.... This blob-of-files approach is similar to how module_build_info-based systems work.

A reference design application project like this one should be open to using git submodules. This example follow the sandbox approach for demonstration purposes. And, because many of our in-house utilities depend on the sandbox folder structure.

To avoid re-downloading dependencies, CPM has an option CPM_SOURCE_CACHE. Read more here: https://github.com/cpm-cmake/CPM.cmake#cpm_source_cache

CPM supports a Package lock. This has not been explored yet to determine it's usefulness.

Next Steps

Demonstrate to more people.

Limitations

These are cribbed from the CPM README with some notes added.

No pre-built binaries For every new build directory, all dependencies are initially downloaded and built from scratch. To avoid extra downloads it is recommend to set the CPM_SOURCE_CACHE environmental variable.

It may take using CPM in a real project in order to see how problematic this is.

Dependent on good CMakeLists Many libraries do not have CMakeLists that work well for subprojects.

Same is true at XMOS. We will need to add them to our libraries. But, we do not necessarily need to build those libraries with CMake.

First version used In diamond-shaped dependency graphs (e.g. A depends on C@1.1 and B, which itself depends on C@1.2 the first added dependency will be used (in this case C@1.1). In this case, B requires a newer version of C than A, so CPM will emit a warning. This can be easily resolved by adding a new version of the dependency in the outermost project, or by introducing a package lock file.

Will use [email protected] and emit a warning