/* ----------------------------------------------------------------------------- * See the LICENSE file for information on copyright, usage and redistribution * of SWIG, and the README file for authors - http://www.swig.org/release.html. * * lua.cxx * * Lua language module for SWIG. * ----------------------------------------------------------------------------- */ /* NEW LANGUAGE NOTE: * ver001 this is simply a copy of tcl8.cxx, which has been renamed * ver002 all non essential code commented out, program now does virtually nothing it prints to stderr the list of functions to wrap, but does not create the XXX_wrap.c file * ver003 added back top(), still prints the list of fns to stderr but now creates a rather empty XXX_wrap.c with some basic boilerplate code * ver004 very basic version of functionWrapper() also uncommented usage_string() to keep compiler happy this will start producing proper looking code soon (I hope) produced the wrapper code, but without any type conversion (in or out) generates a few warning because of no wrappering does not generate SWIG_init() reason for this is that lua.swg is empty we will need to add code into this to make it work * ver005/6 massive rework, basing work on the pike module instead of tcl (pike module it only 1/3 of the size)(though not as complete) * ver007 added simple type checking * ver008 INPUT, OUTPUT, INOUT typemaps handled (though not all types yet) * ver009 class support: ok for basic types, but methods still TDB (code is VERY messed up & needs to be cleaned) */ char cvsroot_lua_cxx[] = "$Id: lua.cxx 11133 2009-02-20 07:52:24Z wsfulton $"; #include "swigmod.h" /**** Diagnostics: With the #define REPORT(), you can change the amount of diagnostics given This helps me search the parse tree & figure out what is going on inside SWIG (because its not clear or documented) */ #define REPORT(T,D) // no info: //#define REPORT(T,D) {Printf(stdout,T"\n");} // only title //#define REPORT(T,D) {Printf(stdout,T" %p\n",n);} // title & pointer //#define REPORT(T,D) {Printf(stdout,T"\n");display_mapping(D);} // the works //#define REPORT(T,D) {Printf(stdout,T"\n");if(D)Swig_print_node(D);} // the works void display_mapping(DOH *d) { if (d == 0 || !DohIsMapping(d)) return; for (DohIterator it = DohFirst(d); it.item; it = DohNext(it)) { if (DohIsString(it.item)) Printf(stdout, " %s = %s\n", it.key, it.item); else if (DohIsMapping(it.item)) Printf(stdout, " %s = \n", it.key); else if (DohIsSequence(it.item)) Printf(stdout, " %s = \n", it.key); else Printf(stdout, " %s = \n", it.key); } } /* NEW LANGUAGE NOTE:*********************************************** most of the default options are handled by SWIG you can add new ones here (though for now I have not bothered) NEW LANGUAGE NOTE:END ************************************************/ static const char *usage = (char *) "\ Lua Options (available with -lua)\n\ (coming soon.)\n\n"; /* NEW LANGUAGE NOTE:*********************************************** To add a new language, you need to derive your class from Language and the overload various virtual functions (more on this as I figure it out) NEW LANGUAGE NOTE:END ************************************************/ class LUA:public Language { private: File *f_begin; File *f_runtime; File *f_header; File *f_wrappers; File *f_init; File *f_initbeforefunc; String *PrefixPlusUnderscore; String *s_cmd_tab; // table of command names String *s_var_tab; // table of global variables String *s_const_tab; // table of global constants String *s_methods_tab; // table of class methods String *s_attr_tab; // table of class atributes String *s_luacode; // luacode to be called during init int have_constructor; int have_destructor; String *destructor_action; String *class_name; String *constructor_name; enum { NO_CPP, VARIABLE, MEMBER_FUNC, CONSTRUCTOR, DESTRUCTOR, MEMBER_VAR, CLASS_CONST, STATIC_FUNC, STATIC_VAR }current; public: /* --------------------------------------------------------------------- * LUA() * * Initialize member data * --------------------------------------------------------------------- */ LUA() { f_begin = 0; f_runtime = 0; f_header = 0; f_wrappers = 0; f_init = 0; f_initbeforefunc = 0; PrefixPlusUnderscore = 0; s_cmd_tab = s_var_tab = s_const_tab = s_luacode = 0; current=NO_CPP; } /* NEW LANGUAGE NOTE:*********************************************** This is called to initalise the system & read any command line args most of this is boilerplate code, except the command line args which depends upon what args your code supports NEW LANGUAGE NOTE:END ************************************************/ /* --------------------------------------------------------------------- * main() * * Parse command line options and initializes variables. * --------------------------------------------------------------------- */ virtual void main(int argc, char *argv[]) { /* Set location of SWIG library */ SWIG_library_directory("lua"); /* Look for certain command line options */ for (int i = 1; i < argc; i++) { if (argv[i]) { if (strcmp(argv[i], "-help") == 0) { // usage flags fputs(usage, stderr); } } } /* NEW LANGUAGE NOTE:*********************************************** This is the boilerplate code, setting a few #defines and which lib directory to use the SWIG_library_directory() is also boilerplate code but it always seems to be the first line of code NEW LANGUAGE NOTE:END ************************************************/ /* Add a symbol to the parser for conditional compilation */ Preprocessor_define("SWIGLUA 1", 0); /* Set language-specific configuration file */ SWIG_config_file("lua.swg"); /* Set typemap language */ SWIG_typemap_lang("lua"); /* Enable overloaded methods support */ allow_overloading(); } /* NEW LANGUAGE NOTE:*********************************************** After calling main, SWIG parses the code to wrap (I believe) then calls top() in this is more boilerplate code to set everything up and a call to Language::top() which begins the code generations by calling the member fns after all that is more boilerplate code to close all down (overall there is virtually nothing here that needs to be edited just use as is) NEW LANGUAGE NOTE:END ************************************************/ /* --------------------------------------------------------------------- * top() * --------------------------------------------------------------------- */ virtual int top(Node *n) { /* Get the module name */ String *module = Getattr(n, "name"); /* Get the output file name */ String *outfile = Getattr(n, "outfile"); /* Open the output file */ f_begin = NewFile(outfile, "w", SWIG_output_files()); if (!f_begin) { FileErrorDisplay(outfile); SWIG_exit(EXIT_FAILURE); } f_runtime = NewString(""); f_init = NewString(""); f_header = NewString(""); f_wrappers = NewString(""); f_initbeforefunc = NewString(""); /* Register file targets with the SWIG file handler */ Swig_register_filebyname("header", f_header); Swig_register_filebyname("wrapper", f_wrappers); Swig_register_filebyname("begin", f_begin); Swig_register_filebyname("runtime", f_runtime); Swig_register_filebyname("init", f_init); Swig_register_filebyname("initbeforefunc", f_initbeforefunc); /* NEW LANGUAGE NOTE:*********************************************** s_cmd_tab,s_var_tab & s_const_tab hold the names of the fns for registering with SWIG. These will be filled in when the functions/variables are wrapped & then added to the end of the wrappering code just before it is written to file NEW LANGUAGE NOTE:END ************************************************/ // Initialize some variables for the object interface s_cmd_tab = NewString(""); s_var_tab = NewString(""); // s_methods_tab = NewString(""); s_const_tab = NewString(""); s_luacode = NewString(""); Swig_register_filebyname("luacode", s_luacode); current=NO_CPP; /* Standard stuff for the SWIG runtime section */ Swig_banner(f_begin); Printf(f_runtime, "\n"); Printf(f_runtime, "#define SWIGLUA\n"); // if (NoInclude) { // Printf(f_runtime, "#define SWIG_NOINCLUDE\n"); // } Printf(f_runtime, "\n"); //String *init_name = NewStringf("%(title)s_Init", module); //Printf(f_header, "#define SWIG_init %s\n", init_name); //Printf(f_header, "#define SWIG_name \"%s\"\n", module); /* SWIG_import is a special function name for importing within Lua5.1 */ //Printf(f_header, "#define SWIG_import luaopen_%s\n\n", module); Printf(f_header, "#define SWIG_name \"%s\"\n", module); Printf(f_header, "#define SWIG_init luaopen_%s\n", module); Printf(f_header, "#define SWIG_init_user luaopen_%s_user\n\n", module); Printf(f_header, "#define SWIG_LUACODE luaopen_%s_luacode\n\n", module); Printf(s_cmd_tab, "\nstatic const struct luaL_reg swig_commands[] = {\n"); Printf(s_var_tab, "\nstatic swig_lua_var_info swig_variables[] = {\n"); Printf(s_const_tab, "\nstatic swig_lua_const_info swig_constants[] = {\n"); Printf(f_wrappers, "#ifdef __cplusplus\nextern \"C\" {\n#endif\n"); /* %init code inclusion, effectively in the SWIG_init function */ Printf(f_init, "void SWIG_init_user(lua_State* L)\n{\n"); Language::top(n); Printf(f_init,"/* exec Lua code if applicable */\nSWIG_Lua_dostring(L,SWIG_LUACODE);\n"); Printf(f_init, "}\n"); Printf(f_wrappers, "#ifdef __cplusplus\n}\n#endif\n"); // Done. Close up the module & write to the wrappers Printv(s_cmd_tab, tab4, "{0,0}\n", "};\n", NIL); Printv(s_var_tab, tab4, "{0,0,0}\n", "};\n", NIL); Printv(s_const_tab, tab4, "{0,0,0,0,0,0}\n", "};\n", NIL); Printv(f_wrappers, s_cmd_tab, s_var_tab, s_const_tab, NIL); SwigType_emit_type_table(f_runtime, f_wrappers); /* NEW LANGUAGE NOTE:*********************************************** this basically combines several of the strings together and then writes it all to a file NEW LANGUAGE NOTE:END ************************************************/ Dump(f_runtime, f_begin); Dump(f_header, f_begin); Dump(f_wrappers, f_begin); Dump(f_initbeforefunc, f_begin); /* for the Lua code it needs to be properly excaped to be added into the C/C++ code */ EscapeCode(s_luacode); Printf(f_begin, "const char* SWIG_LUACODE=\n \"%s\";\n\n",s_luacode); Wrapper_pretty_print(f_init, f_begin); /* Close all of the files */ Delete(s_luacode); Delete(s_cmd_tab); Delete(s_var_tab); Delete(s_const_tab); Delete(f_header); Delete(f_wrappers); Delete(f_init); Delete(f_initbeforefunc); Close(f_begin); Delete(f_runtime); Delete(f_begin); /* Done */ return SWIG_OK; } /* ------------------------------------------------------------ * importDirective() * ------------------------------------------------------------ */ virtual int importDirective(Node *n) { return Language::importDirective(n); } /* NEW LANGUAGE NOTE:*********************************************** This is it! you get this one right, and most of your work is done but its going to take soem file to get it working right quite a bit of this is generally boilerplate code (or stuff I dont understand) that which matters will have extra added comments NEW LANGUAGE NOTE:END ************************************************/ /* --------------------------------------------------------------------- * functionWrapper() * * Create a function declaration and register it with the interpreter. * --------------------------------------------------------------------- */ virtual int functionWrapper(Node *n) { REPORT("functionWrapper",n); String *name = Getattr(n, "name"); String *iname = Getattr(n, "sym:name"); SwigType *d = Getattr(n, "type"); ParmList *l = Getattr(n, "parms"); //Printf(stdout,"functionWrapper %s %s\n",name,iname); Parm *p; String *tm; int i; //Printf(stdout,"functionWrapper %s %s %d\n",name,iname,current); // int returnval=0; // number of arguments returned String *overname = 0; if (Getattr(n, "sym:overloaded")) { overname = Getattr(n, "sym:overname"); } else { if (!addSymbol(iname, n)) { Printf(stderr,"addSymbol(%s) failed\n",iname); return SWIG_ERROR; } } /* NEW LANGUAGE NOTE:*********************************************** the wrapper object holds all the wrappering code we need to add a couple of local variables NEW LANGUAGE NOTE:END ************************************************/ Wrapper *f = NewWrapper(); Wrapper_add_local(f, "SWIG_arg", "int SWIG_arg = 0"); String *wname = Swig_name_wrapper(iname); if (overname) { Append(wname, overname); } /* NEW LANGUAGE NOTE:*********************************************** the format of a lua fn is: static int wrap_XXX(lua_State* L){...} this line adds this into the wrappering code NEW LANGUAGE NOTE:END ************************************************/ Printv(f->def, "static int ", wname, "(lua_State* L) {", NIL); /* NEW LANGUAGE NOTE:*********************************************** this prints the list of args, eg for a C fn int gcd(int x,int y); it will print int arg1; int arg2; NEW LANGUAGE NOTE:END ************************************************/ /* Write code to extract function parameters. */ emit_parameter_variables(l, f); /* Attach the standard typemaps */ emit_attach_parmmaps(l, f); Setattr(n, "wrap:parms", l); /* Get number of required and total arguments */ int num_arguments = emit_num_arguments(l); int num_required = emit_num_required(l); int varargs = emit_isvarargs(l); // Check if we have to ignore arguments that are passed by LUA. // Needed for unary minus, where lua passes two arguments and // we have to ignore the second. int args_to_ignore = 0; if (Getattr(n, "lua:ignore_args")) { args_to_ignore = GetInt(n, "lua:ignore_args"); } /* Which input argument to start with? */ // int start = (current == MEMBER_FUNC || current == MEMBER_VAR || current == DESTRUCTOR) ? 1 : 0; /* Offset to skip over the attribute name */ // int offset = (current == MEMBER_VAR) ? 1 : 0; /* NEW LANGUAGE NOTE:*********************************************** from here on in, it gets rather hairy this is the code to convert from the scripting language to C/C++ some of the stuff will refer to the typemaps code written in your swig file (lua.swg), and some is done in the code here I suppose you could do all the conversion on C, but it would be a nightmare to do NEW LANGUAGE NOTE:END ************************************************/ /* Generate code for argument marshalling */ // String *description = NewString(""); /* NEW LANGUAGE NOTE:*********************************************** argument_check is a new feature I added to check types of arguments: eg for int gcd(int,int) I want to check that arg1 & arg2 really are integers NEW LANGUAGE NOTE:END ************************************************/ String *argument_check = NewString(""); String *argument_parse = NewString(""); String *checkfn = NULL; // String *numoutputs=NULL; char source[64]; //Printf(argument_check, "SWIG_check_num_args(\"%s\",%d,%d)\n",name,num_required,num_arguments); Printf(argument_check, "SWIG_check_num_args(\"%s\",%d,%d)\n",name,num_required+args_to_ignore,num_arguments+args_to_ignore); for (i = 0, p = l; i < num_arguments; i++) { while (checkAttribute(p, "tmap:in:numinputs", "0")) { p = Getattr(p, "tmap:in:next"); } SwigType *pt = Getattr(p, "type"); String *ln = Getattr(p, "lname"); /* Look for an input typemap */ sprintf(source, "%d", i + 1); if ((tm = Getattr(p, "tmap:in"))) { Replaceall(tm, "$source", source); Replaceall(tm, "$target", ln); Replaceall(tm, "$input", source); Setattr(p, "emit:input", source); if (Getattr(p, "wrap:disown") || (Getattr(p, "tmap:in:disown"))) { Replaceall(tm, "$disown", "SWIG_POINTER_DISOWN"); } else { Replaceall(tm, "$disown", "0"); } /* NEW LANGUAGE NOTE:*********************************************** look for a 'checkfn' typemap this an additional parameter added to the in typemap if found the type will be tested for this will result in code either in the argument_check or argument_parse string NEW LANGUAGE NOTE:END ************************************************/ if ((checkfn = Getattr(p, "tmap:in:checkfn"))) { if (i < num_required) { Printf(argument_check, "if(!%s(L,%s))", checkfn, source); } else { Printf(argument_check, "if(lua_gettop(L)>=%s && !%s(L,%s))", source, checkfn, source); } Printf(argument_check, " SWIG_fail_arg(\"%s\",%s,\"%s\");\n", name, source, SwigType_str(pt, 0)); } /* NEW LANGUAGE NOTE:*********************************************** lua states the number of arguments passed to a function using the fn lua_gettop() we can use this to deal with default arguments NEW LANGUAGE NOTE:END ************************************************/ if (i < num_required) { Printf(argument_parse, "%s\n", tm); } else { Printf(argument_parse, "if(lua_gettop(L)>=%s){%s}\n", source, tm); } p = Getattr(p, "tmap:in:next"); continue; } else { /* NEW LANGUAGE NOTE:*********************************************** // why is this code not called when I dont have a typemap? // instead of giving a warning, no code is generated NEW LANGUAGE NOTE:END ************************************************/ Swig_warning(WARN_TYPEMAP_IN_UNDEF, input_file, line_number, "Unable to use type %s as a function argument.\n", SwigType_str(pt, 0)); break; } } // add all argcheck code Printv(f->code, argument_check, argument_parse, NIL); /* Check for trailing varargs */ if (varargs) { if (p && (tm = Getattr(p, "tmap:in"))) { Replaceall(tm, "$input", "varargs"); Printv(f->code, tm, "\n", NIL); } } /* Insert constraint checking code */ for (p = l; p;) { if ((tm = Getattr(p, "tmap:check"))) { Replaceall(tm, "$target", Getattr(p, "lname")); Printv(f->code, tm, "\n", NIL); p = Getattr(p, "tmap:check:next"); } else { p = nextSibling(p); } } /* Insert cleanup code */ String *cleanup = NewString(""); for (p = l; p;) { if ((tm = Getattr(p, "tmap:freearg"))) { Replaceall(tm, "$source", Getattr(p, "lname")); Printv(cleanup, tm, "\n", NIL); p = Getattr(p, "tmap:freearg:next"); } else { p = nextSibling(p); } } /* Insert argument output code */ String *outarg = NewString(""); for (p = l; p;) { if ((tm = Getattr(p, "tmap:argout"))) { // // managing the number of returning variables // if (numoutputs=Getattr(p,"tmap:argout:numoutputs")){ // int i=GetInt(p,"tmap:argout:numoutputs"); // printf("got argout:numoutputs of %d\n",i); // returnval+=GetInt(p,"tmap:argout:numoutputs"); // } // else returnval++; Replaceall(tm, "$source", Getattr(p, "lname")); Replaceall(tm, "$target", "result"); Replaceall(tm, "$arg", Getattr(p, "emit:input")); Replaceall(tm, "$input", Getattr(p, "emit:input")); Printv(outarg, tm, "\n", NIL); p = Getattr(p, "tmap:argout:next"); } else { p = nextSibling(p); } } Setattr(n, "wrap:name", wname); /* Emit the function call */ String *actioncode = emit_action(n); /* NEW LANGUAGE NOTE:*********************************************** FIXME: returns 1 if there is a void return type this is because there is a typemap for void NEW LANGUAGE NOTE:END ************************************************/ // Return value if necessary if ((tm = Swig_typemap_lookup_out("out", n, "result", f, actioncode))) { // managing the number of returning variables // if (numoutputs=Getattr(tm,"numoutputs")){ // int i=GetInt(tm,"numoutputs"); // printf("return numoutputs %d\n",i); // returnval+=GetInt(tm,"numoutputs"); // } // else returnval++; Replaceall(tm, "$source", "result"); if (GetFlag(n, "feature:new")) { Replaceall(tm, "$owner", "1"); } else { Replaceall(tm, "$owner", "0"); } Printf(f->code, "%s\n", tm); // returnval++; } else { Swig_warning(WARN_TYPEMAP_OUT_UNDEF, input_file, line_number, "Unable to use return type %s in function %s.\n", SwigType_str(d, 0), name); } emit_return_variable(n, d, f); /* Output argument output code */ Printv(f->code, outarg, NIL); /* Output cleanup code */ Printv(f->code, cleanup, NIL); /* Look to see if there is any newfree cleanup code */ if (GetFlag(n, "feature:new")) { if ((tm = Swig_typemap_lookup("newfree", n, "result", 0))) { Replaceall(tm, "$source", "result"); Printf(f->code, "%s\n", tm); } } /* See if there is any return cleanup code */ if ((tm = Swig_typemap_lookup("ret", n, "result", 0))) { Replaceall(tm, "$source", "result"); Printf(f->code, "%s\n", tm); } /* Close the function */ Printv(f->code, "return SWIG_arg;\n", NIL); // add the failure cleanup code: Printv(f->code, "\nif(0) SWIG_fail;\n", NIL); Printv(f->code, "\nfail:\n", NIL); Printv(f->code, "$cleanup", "lua_error(L);\n", NIL); Printv(f->code, "return SWIG_arg;\n", NIL); Printf(f->code, "}\n"); /* Substitute the cleanup code */ Replaceall(f->code, "$cleanup", cleanup); /* Substitute the function name */ Replaceall(f->code, "$symname", iname); Replaceall(f->code, "$result", "result"); /* Dump the function out */ /* in Lua we will not emit the destructor as a wrappered function, Lua will automatically call the destructor when the object is free'd However: you cannot just skip this function as it will not emit any custom destructor (using %extend), as you need to call emit_action() Therefore we go though the whole function, but do not write the code into the wrapper */ if(current!=DESTRUCTOR) { Wrapper_print(f, f_wrappers); } /* NEW LANGUAGE NOTE:*********************************************** register the function in SWIG different language mappings seem to use different ideas NEW LANGUAGE NOTE:END ************************************************/ /* Now register the function with the interpreter. */ if (!Getattr(n, "sym:overloaded")) { // add_method(n, iname, wname, description); if (current==NO_CPP || current==STATIC_FUNC) // emit normal fns & static fns Printv(s_cmd_tab, tab4, "{ \"", iname, "\", ", Swig_name_wrapper(iname), "},\n", NIL); // Printv(s_cmd_tab, tab4, "{ SWIG_prefix \"", iname, "\", (swig_wrapper_func) ", Swig_name_wrapper(iname), "},\n", NIL); } else { if (!Getattr(n, "sym:nextSibling")) { dispatchFunction(n); } } Delete(argument_check); Delete(argument_parse); Delete(cleanup); Delete(outarg); // Delete(description); Delete(wname); DelWrapper(f); return SWIG_OK; } /* ------------------------------------------------------------ * dispatchFunction() * * Emit overloading dispatch function * ------------------------------------------------------------ */ /* NEW LANGUAGE NOTE:*********************************************** This is an extra function used for overloading of functions it checks the args & then calls the relevant fn nost of the real work in again typemaps: look for %typecheck(SWIG_TYPECHECK_*) in the .swg file NEW LANGUAGE NOTE:END ************************************************/ void dispatchFunction(Node *n) { /* Last node in overloaded chain */ int maxargs; String *tmp = NewString(""); String *dispatch = Swig_overload_dispatch(n, "return %s(L);", &maxargs); /* Generate a dispatch wrapper for all overloaded functions */ Wrapper *f = NewWrapper(); String *symname = Getattr(n, "sym:name"); String *wname = Swig_name_wrapper(symname); //Printf(stdout,"Swig_overload_dispatch %s %s '%s' %d\n",symname,wname,dispatch,maxargs); Printv(f->def, "static int ", wname, "(lua_State* L) {", NIL); Wrapper_add_local(f, "argc", "int argc"); Printf(tmp, "int argv[%d]={1", maxargs + 1); for (int i = 1; i <= maxargs; i++) { Printf(tmp, ",%d", i + 1); } Printf(tmp, "}"); Wrapper_add_local(f, "argv", tmp); Printf(f->code, "argc = lua_gettop(L);\n"); Replaceall(dispatch, "$args", "self,args"); Printv(f->code, dispatch, "\n", NIL); Node *sibl = n; while (Getattr(sibl, "sym:previousSibling")) sibl = Getattr(sibl, "sym:previousSibling"); // go all the way up String *protoTypes = NewString(""); do { Printf(protoTypes, "\n\" %s(%s)\\n\"", SwigType_str(Getattr(sibl, "name"), 0), ParmList_protostr(Getattr(sibl, "wrap:parms"))); } while ((sibl = Getattr(sibl, "sym:nextSibling"))); Printf(f->code, "lua_pushstring(L,\"Wrong arguments for overloaded function '%s'\\n\"\n" "\" Possible C/C++ prototypes are:\\n\"%s);\n",symname,protoTypes); Delete(protoTypes); Printf(f->code, "lua_error(L);return 0;\n"); Printv(f->code, "}\n", NIL); Wrapper_print(f, f_wrappers); //add_method(symname,wname,0); if (current==NO_CPP || current==STATIC_FUNC) // emit normal fns & static fns Printv(s_cmd_tab, tab4, "{ \"", symname, "\",", wname, "},\n", NIL); DelWrapper(f); Delete(dispatch); Delete(tmp); Delete(wname); } /* ------------------------------------------------------------ * variableWrapper() * ------------------------------------------------------------ */ virtual int variableWrapper(Node *n) { /* NEW LANGUAGE NOTE:*********************************************** Language::variableWrapper(n) will generate two wrapper fns Foo_get & Foo_set by calling functionWrapper() so we will just add these into the variable lists ideally we should not have registered these as functions, only WRT this variable will look into this later. NEW LANGUAGE NOTE:END ************************************************/ // REPORT("variableWrapper", n); String *iname = Getattr(n, "sym:name"); current=VARIABLE; // let SWIG generate the wrappers int result = Language::variableWrapper(n); current=NO_CPP; // normally SWIG will generate 2 wrappers, a get and a set // but in certain scenarios (immutable, or if its arrays), it will not String *getName = Swig_name_wrapper(Swig_name_get(iname)); String *setName = 0; // checking whether it can be set to or not appears to be a very error prone issue // I refered to the Language::variableWrapper() to find this out bool assignable=is_assignable(n) ? true : false; SwigType *type = Getattr(n, "type"); String *tm = Swig_typemap_lookup("globalin", n, iname, 0); if (!tm && SwigType_isarray(type)) assignable=false; Delete(tm); if (assignable) { setName = Swig_name_wrapper(Swig_name_set(iname)); } else { // how about calling a 'this is not settable' error message? setName = NewString("SWIG_Lua_set_immutable"); // error message //setName = NewString("0"); } // register the variable Printf(s_var_tab, "%s{ \"%s\", %s, %s },\n", tab4, iname, getName, setName); Delete(getName); Delete(setName); return result; } /* ------------------------------------------------------------ * constantWrapper() * ------------------------------------------------------------ */ virtual int constantWrapper(Node *n) { // REPORT("constantWrapper", n); String *name = Getattr(n, "name"); String *iname = Getattr(n, "sym:name"); //String *nsname = !nspace ? Copy(iname) : NewStringf("%s::%s",ns_name,iname); String *nsname = Copy(iname); SwigType *type = Getattr(n, "type"); String *rawval = Getattr(n, "rawval"); String *value = rawval ? rawval : Getattr(n, "value"); String *tm; if (!addSymbol(iname, n)) return SWIG_ERROR; //if (nspace) Setattr(n,"sym:name",nsname); /* Special hook for member pointer */ if (SwigType_type(type) == T_MPOINTER) { String *wname = Swig_name_wrapper(iname); Printf(f_wrappers, "static %s = %s;\n", SwigType_str(type, wname), value); value = Char(wname); } if ((tm = Swig_typemap_lookup("consttab", n, name, 0))) { Replaceall(tm, "$source", value); Replaceall(tm, "$target", name); Replaceall(tm, "$value", value); Replaceall(tm, "$nsname", nsname); Printf(s_const_tab, "%s,\n", tm); } else if ((tm = Swig_typemap_lookup("constcode", n, name, 0))) { Replaceall(tm, "$source", value); Replaceall(tm, "$target", name); Replaceall(tm, "$value", value); Replaceall(tm, "$nsname", nsname); Printf(f_init, "%s\n", tm); } else { Delete(nsname); Swig_warning(WARN_TYPEMAP_CONST_UNDEF, input_file, line_number, "Unsupported constant value.\n"); return SWIG_NOWRAP; } Delete(nsname); return SWIG_OK; } /* ------------------------------------------------------------ * nativeWrapper() * ------------------------------------------------------------ */ virtual int nativeWrapper(Node *n) { // REPORT("nativeWrapper", n); String *symname = Getattr(n, "sym:name"); String *wrapname = Getattr(n, "wrap:name"); if (!addSymbol(wrapname, n)) return SWIG_ERROR; Printv(s_cmd_tab, tab4, "{ \"", symname, "\",", wrapname, "},\n", NIL); // return Language::nativeWrapper(n); // this does nothing... return SWIG_OK; } /* ------------------------------------------------------------ * enumDeclaration() * ------------------------------------------------------------ */ virtual int enumDeclaration(Node *n) { return Language::enumDeclaration(n); } /* ------------------------------------------------------------ * enumvalueDeclaration() * ------------------------------------------------------------ */ virtual int enumvalueDeclaration(Node *n) { return Language::enumvalueDeclaration(n); } /* ------------------------------------------------------------ * classDeclaration() * ------------------------------------------------------------ */ virtual int classDeclaration(Node *n) { return Language::classDeclaration(n); } /* ------------------------------------------------------------ * classHandler() * ------------------------------------------------------------ */ virtual int classHandler(Node *n) { //REPORT("classHandler", n); String *mangled_classname = 0; String *real_classname = 0; constructor_name = 0; have_constructor = 0; have_destructor = 0; destructor_action = 0; class_name = Getattr(n, "sym:name"); if (!addSymbol(class_name, n)) return SWIG_ERROR; real_classname = Getattr(n, "name"); mangled_classname = Swig_name_mangle(real_classname); // not sure exactly how this workswhat this works, // but tcl has a static hashtable of all classes emitted and then only emits code for them once. // this fixes issues in test suites: template_default2 & template_specialization // * if i understand correctly, this is a bug. // * consider effect on template_specialization_defarg static Hash *emitted = NewHash(); if (Getattr(emitted, mangled_classname)) return SWIG_NOWRAP; Setattr(emitted, mangled_classname, "1"); s_attr_tab = NewString(""); Printf(s_attr_tab, "static swig_lua_attribute swig_"); Printv(s_attr_tab, mangled_classname, "_attributes[] = {\n", NIL); s_methods_tab = NewString(""); Printf(s_methods_tab, "static swig_lua_method swig_"); Printv(s_methods_tab, mangled_classname, "_methods[] = {\n", NIL); // Generate normal wrappers Language::classHandler(n); SwigType *t = Copy(Getattr(n, "name")); SwigType_add_pointer(t); // Catch all: eg. a class with only static functions and/or variables will not have 'remembered' String *wrap_class = NewStringf("&_wrap_class_%s", mangled_classname); SwigType_remember_clientdata(t, wrap_class); String *rt = Copy(Getattr(n, "classtype")); SwigType_add_pointer(rt); // Register the class structure with the type checker // Printf(f_init,"SWIG_TypeClientData(SWIGTYPE%s, (void *) &_wrap_class_%s);\n", SwigType_manglestr(t), mangled_classname); // emit a function to be called to delete the object if (have_destructor) { Printv(f_wrappers, "static void swig_delete_", class_name, "(void *obj) {\n", NIL); if (destructor_action) { Printv(f_wrappers, SwigType_str(rt, "arg1"), " = (", SwigType_str(rt, 0), ") obj;\n", NIL); Printv(f_wrappers, destructor_action, "\n", NIL); } else { if (CPlusPlus) { Printv(f_wrappers, " delete (", SwigType_str(rt, 0), ") obj;\n", NIL); } else { Printv(f_wrappers, " free((char *) obj);\n", NIL); } } Printf(f_wrappers, "}\n"); } Printf(s_methods_tab, " {0,0}\n};\n"); Printv(f_wrappers, s_methods_tab, NIL); Printf(s_attr_tab, " {0,0,0}\n};\n"); Printv(f_wrappers, s_attr_tab, NIL); Delete(s_methods_tab); Delete(s_attr_tab); // Handle inheritance // note: with the idea of class hireachied spread over multiple modules // cf test-suite: imports.i // it is not possible to just add the pointers to the base classes to the code // (as sometimes these classes are not present) // therefore we instead hold the name of the base class and a null pointer // at runtime: we can query the swig type manager & see if the class exists // if so, we can get the pointer to the base class & replace the null pointer // if the type does not exist, then we cannot... String *base_class = NewString(""); String *base_class_names = NewString(""); List *baselist = Getattr(n, "bases"); if (baselist && Len(baselist)) { Iterator b; int index = 0; b = First(baselist); while (b.item) { String *bname = Getattr(b.item, "name"); if ((!bname) || GetFlag(b.item, "feature:ignore") || (!Getattr(b.item, "module"))) { b = Next(b); continue; } // old code: (used the pointer to the base class) //String *bmangle = Swig_name_mangle(bname); //Printf(base_class, "&_wrap_class_%s", bmangle); //Putc(',', base_class); //Delete(bmangle); // new code: stores a null pointer & the name Printf(base_class, "0,"); Printf(base_class_names, "\"%s *\",", SwigType_namestr(bname)); b = Next(b); index++; } } Printv(f_wrappers, "static swig_lua_class *swig_", mangled_classname, "_bases[] = {", base_class, "0};\n", NIL); Delete(base_class); Printv(f_wrappers, "static const char *swig_", mangled_classname, "_base_names[] = {", base_class_names, "0};\n", NIL); Delete(base_class_names); Printv(f_wrappers, "static swig_lua_class _wrap_class_", mangled_classname, " = { \"", class_name, "\", &SWIGTYPE", SwigType_manglestr(t), ",", NIL); if (have_constructor) { Printf(f_wrappers, "%s", Swig_name_wrapper(Swig_name_construct(constructor_name))); Delete(constructor_name); constructor_name = 0; } else { Printf(f_wrappers, "0"); } if (have_destructor) { Printv(f_wrappers, ", swig_delete_", class_name, NIL); } else { Printf(f_wrappers, ",0"); } Printf(f_wrappers, ", swig_%s_methods, swig_%s_attributes, swig_%s_bases, swig_%s_base_names };\n\n", mangled_classname, mangled_classname, mangled_classname, mangled_classname); // Printv(f_wrappers, ", swig_", mangled_classname, "_methods, swig_", mangled_classname, "_attributes, swig_", mangled_classname, "_bases };\n\n", NIL); // Printv(s_cmd_tab, tab4, "{ SWIG_prefix \"", class_name, "\", (swig_wrapper_func) SWIG_ObjectConstructor, &_wrap_class_", mangled_classname, "},\n", NIL); Delete(t); Delete(mangled_classname); return SWIG_OK; } /* ------------------------------------------------------------ * memberfunctionHandler() * ------------------------------------------------------------ */ virtual int memberfunctionHandler(Node *n) { String *name = Getattr(n, "name"); String *iname = GetChar(n, "sym:name"); //Printf(stdout,"memberfunctionHandler %s %s\n",name,iname); // Special case unary minus: LUA passes two parameters for the // wrapper function while we want only one. Tell our // functionWrapper to ignore a parameter. if (Cmp(Getattr(n, "sym:name"), "__unm") == 0) { //Printf(stdout, "unary minus: ignore one argument\n"); SetInt(n, "lua:ignore_args", 1); } String *realname, *rname; current = MEMBER_FUNC; Language::memberfunctionHandler(n); current = NO_CPP; realname = iname ? iname : name; rname = Swig_name_wrapper(Swig_name_member(class_name, realname)); if (!Getattr(n, "sym:nextSibling")) { Printv(s_methods_tab, tab4, "{\"", realname, "\", ", rname, "}, \n", NIL); } Delete(rname); return SWIG_OK; } /* ------------------------------------------------------------ * membervariableHandler() * ------------------------------------------------------------ */ virtual int membervariableHandler(Node *n) { // REPORT("membervariableHandler",n); String *symname = Getattr(n, "sym:name"); String *gname, *sname; current = MEMBER_VAR; Language::membervariableHandler(n); current = NO_CPP; gname = Swig_name_wrapper(Swig_name_get(Swig_name_member(class_name, symname))); if (!GetFlag(n, "feature:immutable")) { sname = Swig_name_wrapper(Swig_name_set(Swig_name_member(class_name, symname))); } else { //sname = NewString("0"); sname = NewString("SWIG_Lua_set_immutable"); // error message } Printf(s_attr_tab,"%s{ \"%s\", %s, %s},\n",tab4,symname,gname,sname); Delete(gname); Delete(sname); return SWIG_OK; } /* ------------------------------------------------------------ * constructorHandler() * * Method for adding C++ member constructor * ------------------------------------------------------------ */ virtual int constructorHandler(Node *n) { // REPORT("constructorHandler", n); current = CONSTRUCTOR; Language::constructorHandler(n); current = NO_CPP; constructor_name = NewString(Getattr(n, "sym:name")); have_constructor = 1; return SWIG_OK; } /* ------------------------------------------------------------ * destructorHandler() * ------------------------------------------------------------ */ virtual int destructorHandler(Node *n) { REPORT("destructorHandler", n); current = DESTRUCTOR; Language::destructorHandler(n); current = NO_CPP; have_destructor = 1; destructor_action = Getattr(n, "wrap:action"); return SWIG_OK; } /* ----------------------------------------------------------------------- * staticmemberfunctionHandler() * * Wrap a static C++ function * ---------------------------------------------------------------------- */ virtual int staticmemberfunctionHandler(Node *n) { current = STATIC_FUNC; return Language::staticmemberfunctionHandler(n); } /* ------------------------------------------------------------ * memberconstantHandler() * * Create a C++ constant * ------------------------------------------------------------ */ virtual int memberconstantHandler(Node *n) { // REPORT("memberconstantHandler",n); return Language::memberconstantHandler(n); } /* --------------------------------------------------------------------- * staticmembervariableHandler() * --------------------------------------------------------------------- */ virtual int staticmembervariableHandler(Node *n) { // REPORT("staticmembervariableHandler",n); current = STATIC_VAR; return Language::staticmembervariableHandler(n); } /* --------------------------------------------------------------------- * external runtime generation * --------------------------------------------------------------------- */ /* This is to support the usage SWIG -external-runtime The code consists of two functions: String *runtimeCode() // returns a large string with all the runtimes in String *defaultExternalRuntimeFilename() // returns the default filename I am writing a generic solution, even though SWIG-Lua only has one file right now... */ String *runtimeCode() { String *s = NewString(""); const char *filenames[] = { "luarun.swg", 0 } ; // must be 0 termiated String *sfile; for (int i = 0; filenames[i] != 0; i++) { sfile = Swig_include_sys(filenames[i]); if (!sfile) { Printf(stderr, "*** Unable to open '%s'\n", filenames[i]); } else { Append(s, sfile); Delete(sfile); } } return s; } String *defaultExternalRuntimeFilename() { return NewString("swigluarun.h"); } /* --------------------------------------------------------------------- * helpers * --------------------------------------------------------------------- */ /* This is to convert the string of Lua code into a proper string, which can then be emitted into the C/C++ code. Basically is is a lot of search & replacing of odd sequences */ void EscapeCode(String* str) { //Printf(f_runtime,"/* original luacode:[[[\n%s\n]]]\n*/\n",str); Chop(str); // trim Replace(str,"\\","\\\\",DOH_REPLACE_ANY); // \ to \\ (this must be done first) Replace(str,"\"","\\\"",DOH_REPLACE_ANY); // " to \" Replace(str,"\n","\\n\"\n \"",DOH_REPLACE_ANY); // \n to \n"\n" (ie quoting every line) //Printf(f_runtime,"/* hacked luacode:[[[\n%s\n]]]\n*/\n",str); } }; /* NEW LANGUAGE NOTE:*********************************************** in order to add you language into swig, you need to make the following changes: - write this file (obviously) - add into the makefile (not 100% clear on how to do this) - edit swigmain.cxx to add your module near the top of swigmain.cxx, look for this code & add you own codes ======= begin change ========== extern "C" { Language *swig_tcl(void); Language *swig_python(void); //etc,etc,etc... Language *swig_lua(void); // this is my code } //etc,etc,etc... swig_module modules[] = { {"-guile", swig_guile, "Guile"}, {"-java", swig_java, "Java"}, //etc,etc,etc... {"-lua", swig_lua, "Lua"}, // this is my code {NULL, NULL, NULL} // this must come at the end of the list }; ======= end change ========== This is all that is needed NEW LANGUAGE NOTE:END ************************************************/ /* ----------------------------------------------------------------------------- * swig_lua() - Instantiate module * ----------------------------------------------------------------------------- */ extern "C" Language *swig_lua(void) { return new LUA(); }