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...which (in LIBO_INTERNAL_ONLY) for Clang expands to [[clang::fallthrough]] in preparation of enabling -Wimplicit-fallthrough. (This is only relevant for C++11, as neither C nor old C++ has a way to annotate intended fallthroughs.) Could use BOOST_FALLTHROUGH instead of introducing our own SAL_FALLTHROUGH, but that would require adding back in dependencies on boost_headers to many libraries where we carefully removed any remaining Boost dependencies only recently. (At least make SAL_FALLTHROUGH strictly LIBO_INTERNAL_ONLY, so its future evolution will not have any impact on the stable URE interface.) C++17 will have a proper [[fallthroug]], eventually removing the need for a macro altogether. Change-Id: I342a7610a107db7d7a344ea9cbddfd9714d7e9ca |
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| .. | ||
| qa | ||
| source | ||
| CppunitTest_binaryurp_test-cache.mk | ||
| CppunitTest_binaryurp_test-unmarshal.mk | ||
| Library_binaryurp.mk | ||
| Makefile | ||
| Module_binaryurp.mk | ||
| README | ||
UNO Remote Protocol (URP). A binary protocol. UNO provides a protocol called the UNO Remote Protocol (URP) that provides a bridge between UNO environments. This bridge allows processes and objects to send method calls and to receive return values. UNO objects in different environments are connected by way of this interprocess bridge. The underlying connection is made through a socket or pipe. Remote UNO objects are connected by means of TCP/IP using the high-level protocol of the URP.