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C++ Library for Interfacing to SigMF Files

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libsigmf

libsigmf is a header-only C++ library for working with SigMF metadata. It is provided under the Apache License 2.0 and the copyright notice can be found in NOTICE.

Updates in libsigmf v1.0

Version 1.0 has several changes from earlier versions, most notably is the requirement to use optional (nullable) scalar fields which became supported in flatbuffers since the library was originally published (v0.0.2). This means scalar values are ALL implemented as std::optional, which is a change for applications using libsigmf. This change was made to avoid the situation where default values are either not populated or always populated. Now all fields will be included in the output if and only if they are set.

Other v1.0 changes include: updating to the latest SigMF metadata fields in the included schemas (including redefining all scalar fields as optional via =null;), updating to flatbuffers v2.0.0 syntax, using shared_ptr for generated headers instead of unique_ptr, cmake updates, updates to examples to ensure optional fields are working correctly, update to require c++17 for std::optional, and namespacing the entire library and associated schema files within the sigmf:: c++ namespace.

To update existing code from libsigmf v0.x to v1.x, some changes are required. Accessing a field like this:

annotation_sample_start = annotation.sample_start;

is no longer valid as the annotation.sample_start field is not a uint64_t, its a std::optional and must now be checked to see if it has been set, then accessed in a legal way, such as:

if (annotation.sample_start.has_value()) {
  annotation_sample_start = annotation.sample_start.value();
} else {
  // what to do if the "sample_start" field is missing
}

Users can also preserve existing behavior (where all scalar fields had a default value of zero) with:

annotation_sample_start = annotation.sample_start.value_or(0);

or any other default value of choice.

Generation of JSON is unaffected other than it is no longer required to choose between "all fields" or "no fields with default values".

Limitations of libsigmf v1.0

  • SigMF collections do not have any formal support yet.
  • Formal test code is still a WIP, examples provide some code coverage.

Building

libsigmf depends on the following packages:

  • nlohmann-json3-dev (3.7.3 preferred, other versions may work)
  • libflatbuffers-dev (2.0.0 required as of SigMF v1.0)

These dependencies are included as submodules that can be built alongside libsigmf (default), or system installed libraries can be used by passing -DUSE_SYSTEM_JSON=ON -DUSE_SYSTEM_FLATBUFFERS=ON to cmake. It is recommended that users install flatbuffers v2.0 system wide as most applications using libsigmf will also need this.

Build with the standard cmake process:

mkdir build
cd build
cmake ../ # OR: cmake -DUSE_SYSTEM_JSON=ON -DUSE_SYSTEM_FLATBUFFERS=ON ../
make -j
sudo make install

Usage

It is important to keep in mind that libsigmf does not strictly enforce all aspects of the SigMF specification. While types are strictly enforced, fields that are noted as REQUIRED by SigMF will not necessarily cause errors if they are missing during schema parsing.

Including in your application

To use libsigmf, your application needs to #include <sigmf.h> and link to libflatbuffers.so.

One option is to include libsigmf (this git repo) as a submodule inside your project sources. A typical cmake usage would look like the following (see the CMakeLists.txt in this examples directory for what this looks like in real usage).

add_executable(example_record_with_multiple_namespaces example_record_with_multiple_namespaces.cpp)
target_link_libraries(example_record_with_multiple_namespaces libsigmf::libsigmf)
target_include_directories(example_record_with_multiple_namespaces PRIVATE ${CMAKE_BINARY_DIR}/include)

Ideally you install libsigmf either system-wide or in a prefix. Provided CMake configuration then enables you to include libsigmf in your project by including this

find_package(libsigmf REQUIRED)
add_executable(my_awesome_record my_awesome_record.cpp)
target_link_libraries(my_awesome_record libsigmf::libsigmf)

Code usage

libsigmf internally has a class sigmf::VariadicDataClass that does the heavy lifting of keeping objects of collected metadata using different SigMF namespaces. As a convenience, there are 4 classes that directly deal with SigMF objects that are all you need to use:

  1. sigmf::SigMF
  2. sigmf::Global
  3. sigmf::Capture
  4. sigmf::Annotation

Extensions

By default, the antenna, capture_details, and signal extensions are included in libsigmf. Users are able to add additional extensions by defining *.fbs schema, building with flatc and including these schema in their applications. The canonical signal-specific extensions (adsb, wifi) are included and imported into sigmf.h but are not built into the sigmf helpers by default.

Contributing

Please see CONTRIBUTING.md for more information!

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