=pod LuaJIT =head1 Lua/C API Extensions =over =item * LuaJIT =over =item * Download E =item * Installation =item * Running =back =item * Extensions =over =item * FFI Library =over =item * FFI Tutorial =item * ffi.* API =item * FFI Semantics =back =item * jit.* Library =item * Lua/C API =item * Profiler =back =item * Status =over =item * Changes =back =item * FAQ =item * Performance E =item * Wiki E =item * Mailing List E =back LuaJIT adds some extensions to the standard Lua/C API. The LuaJIT include directory must be in the compiler search path (C<-II>) to be able to include the required header for C code: #include "luajit.h" Or for C++ code: #include "lua.hpp" =head2 C E Control VM This is a C API extension to allow control of the VM from C code. The full prototype of C is: LUA_API int luaJIT_setmode(lua_State *L, int idx, int mode); The returned status is either success (C<1>) or failure (C<0>). The second argument is either C<0> or a stack index (similar to the other Lua/C API functions). The third argument specifies the mode, which is 'or'ed with a flag. The flag can be C to turn a feature off, C to turn a feature on, or C to flush cached code. The following modes are defined: =head2 C Turn the whole JIT compiler on or off or flush the whole cache of compiled code. =head2 C C C This sets the mode for the function at the stack index C or the parent of the calling function (C). It either enables JIT compilation for a function, disables it and flushes any already compiled code or only flushes already compiled code. This applies recursively to all sub-functions of the function with C or only to the sub-functions with C. =head2 luaJIT_setmode(L, trace, LUAJIT_MODE_TRACE|LUAJIT_MODE_FLUSH) Flushes the specified root trace and all of its side traces from the cache. The code for the trace will be retained as long as there are any other traces which link to it. =head2 C This mode defines a wrapper function for calls to C functions. If called with C, the stack index at C must be a C object holding a pointer to the wrapper function. From now on all C functions are called through the wrapper function. If called with C this mode is turned off and all C functions are directly called. The wrapper function can be used for debugging purposes or to catch and convert foreign exceptions. But please read the section on C++ exception interoperability first. Recommended usage can be seen in this C++ code excerpt: #include #include "lua.hpp" // Catch C++ exceptions and convert them to Lua error messages. // Customize as needed for your own exception classes. static int wrap_exceptions(lua_State *L, lua_CFunction f) { try { return f(L); // Call wrapped function and return result. } catch (const char *s) { // Catch and convert exceptions. lua_pushstring(L, s); } catch (std::exception& e) { lua_pushstring(L, e.what()); } catch (...) { lua_pushliteral(L, "caught (...)"); } return lua_error(L); // Rethrow as a Lua error. } static int myinit(lua_State *L) { ... // Define wrapper function and enable it. lua_pushlightuserdata(L, (void *)wrap_exceptions); luaJIT_setmode(L, -1, LUAJIT_MODE_WRAPCFUNC|LUAJIT_MODE_ON); lua_pop(L, 1); ... } Note that you can only define B, so be careful when using this mechanism from multiple C++ modules. Also note that this mechanism is not without overhead. ---- Copyright E 2005-2017 Mike Pall E Contact =cut #Pod::HTML2Pod conversion notes: #From file ext_c_api.html # 6042 bytes of input #Mon May 14 13:19:15 2018 agentzh # No a_name switch not specified, so will not try to render # No a_href switch not specified, so will not try to render # Deleting phrasal "code" element (`tt_18) because it has super-phrasal elements (`br_3) as children.