/* ----------------------------------------------------------------------------- * This file is part of SWIG, which is licensed as a whole under version 3 * (or any later version) of the GNU General Public License. Some additional * terms also apply to certain portions of SWIG. The full details of the SWIG * license and copyrights can be found in the LICENSE and COPYRIGHT files * included with the SWIG source code as distributed by the SWIG developers * and at http://www.swig.org/legal.html. * * csharp.cxx * * C# language module for SWIG. * ----------------------------------------------------------------------------- */ char cvsroot_csharp_cxx[] = "$Id: csharp.cxx 12557 2011-03-26 15:28:31Z wsfulton $"; #include "swigmod.h" #include // for INT_MAX #include "cparse.h" #include /* Hash type used for upcalls from C/C++ */ typedef DOH UpcallData; class CSHARP:public Language { static const char *usage; const String *empty_string; const String *public_string; const String *protected_string; Hash *swig_types_hash; File *f_begin; File *f_runtime; File *f_runtime_h; File *f_header; File *f_wrappers; File *f_init; File *f_directors; File *f_directors_h; List *filenames_list; bool proxy_flag; // Flag for generating proxy classes bool native_function_flag; // Flag for when wrapping a native function bool enum_constant_flag; // Flag for when wrapping an enum or constant bool static_flag; // Flag for when wrapping a static functions or member variables bool variable_wrapper_flag; // Flag for when wrapping a nonstatic member variable bool wrapping_member_flag; // Flag for when wrapping a member variable/enum/const bool global_variable_flag; // Flag for when wrapping a global variable bool old_variable_names; // Flag for old style variable names in the intermediary class bool generate_property_declaration_flag; // Flag for generating properties String *imclass_name; // intermediary class name String *module_class_name; // module class name String *imclass_class_code; // intermediary class code String *proxy_class_def; String *proxy_class_code; String *module_class_code; String *proxy_class_name; // proxy class name String *full_proxy_class_name;// fully qualified proxy class name when using nspace feature, otherwise same as proxy_class_name String *full_imclass_name; // fully qualified intermediary class name when using nspace feature, otherwise same as imclass_name String *variable_name; //Name of a variable being wrapped String *proxy_class_constants_code; String *module_class_constants_code; String *enum_code; String *dllimport; // DllImport attribute name String *namespce; // Optional namespace name String *imclass_imports; //intermediary class imports from %pragma String *module_imports; //module imports from %pragma String *imclass_baseclass; //inheritance for intermediary class class from %pragma String *module_baseclass; //inheritance for module class from %pragma String *imclass_interfaces; //interfaces for intermediary class class from %pragma String *module_interfaces; //interfaces for module class from %pragma String *imclass_class_modifiers; //class modifiers for intermediary class overriden by %pragma String *module_class_modifiers; //class modifiers for module class overriden by %pragma String *upcasts_code; //C++ casts for inheritance hierarchies C++ code String *imclass_cppcasts_code; //C++ casts up inheritance hierarchies intermediary class code String *director_callback_typedefs; // Director function pointer typedefs for callbacks String *director_callbacks; // Director callback function pointer member variables String *director_delegate_callback; // Director callback method that delegates are set to call String *director_delegate_definitions; // Director delegates definitions in proxy class String *director_delegate_instances; // Director delegates member variables in proxy class String *director_method_types; // Director method types String *director_connect_parms; // Director delegates parameter list for director connect call String *destructor_call; //C++ destructor call if any // Director method stuff: List *dmethods_seq; Hash *dmethods_table; int n_dmethods; int n_directors; int first_class_dmethod; int curr_class_dmethod; enum EnumFeature { SimpleEnum, TypeunsafeEnum, TypesafeEnum, ProperEnum }; public: /* ----------------------------------------------------------------------------- * CSHARP() * ----------------------------------------------------------------------------- */ CSHARP():empty_string(NewString("")), public_string(NewString("public")), protected_string(NewString("protected")), swig_types_hash(NULL), f_begin(NULL), f_runtime(NULL), f_runtime_h(NULL), f_header(NULL), f_wrappers(NULL), f_init(NULL), f_directors(NULL), f_directors_h(NULL), filenames_list(NULL), proxy_flag(true), native_function_flag(false), enum_constant_flag(false), static_flag(false), variable_wrapper_flag(false), wrapping_member_flag(false), global_variable_flag(false), old_variable_names(false), generate_property_declaration_flag(false), imclass_name(NULL), module_class_name(NULL), imclass_class_code(NULL), proxy_class_def(NULL), proxy_class_code(NULL), module_class_code(NULL), proxy_class_name(NULL), full_proxy_class_name(NULL), full_imclass_name(NULL), variable_name(NULL), proxy_class_constants_code(NULL), module_class_constants_code(NULL), enum_code(NULL), dllimport(NULL), namespce(NULL), imclass_imports(NULL), module_imports(NULL), imclass_baseclass(NULL), module_baseclass(NULL), imclass_interfaces(NULL), module_interfaces(NULL), imclass_class_modifiers(NULL), module_class_modifiers(NULL), upcasts_code(NULL), imclass_cppcasts_code(NULL), director_callback_typedefs(NULL), director_callbacks(NULL), director_delegate_callback(NULL), director_delegate_definitions(NULL), director_delegate_instances(NULL), director_method_types(NULL), director_connect_parms(NULL), destructor_call(NULL), dmethods_seq(NULL), dmethods_table(NULL), n_dmethods(0), n_directors(0) { /* for now, multiple inheritance in directors is disabled, this should be easy to implement though */ director_multiple_inheritance = 0; director_language = 1; } /* ----------------------------------------------------------------------------- * getProxyName() * * Test to see if a type corresponds to something wrapped with a proxy class. * Return NULL if not otherwise the proxy class name, fully qualified with * a namespace if the nspace feature is used. * ----------------------------------------------------------------------------- */ String *getProxyName(SwigType *t) { String *proxyname = NULL; if (proxy_flag) { Node *n = classLookup(t); if (n) { proxyname = Getattr(n, "proxyname"); if (!proxyname) { String *nspace = Getattr(n, "sym:nspace"); String *symname = Getattr(n, "sym:name"); if (nspace) { if (namespce) proxyname = NewStringf("%s.%s.%s", namespce, nspace, symname); else proxyname = NewStringf("%s.%s", nspace, symname); } else { proxyname = Copy(symname); } Setattr(n, "proxyname", proxyname); Delete(proxyname); } } } return proxyname; } /* ----------------------------------------------------------------------------- * directorClassName() * ----------------------------------------------------------------------------- */ String *directorClassName(Node *n) { String *dirclassname; const char *attrib = "director:classname"; if (!(dirclassname = Getattr(n, attrib))) { String *classname = Getattr(n, "sym:name"); dirclassname = NewStringf("SwigDirector_%s", classname); Setattr(n, attrib, dirclassname); } return dirclassname; } /* ------------------------------------------------------------ * main() * ------------------------------------------------------------ */ virtual void main(int argc, char *argv[]) { SWIG_library_directory("csharp"); // Look for certain command line options for (int i = 1; i < argc; i++) { if (argv[i]) { if (strcmp(argv[i], "-dllimport") == 0) { if (argv[i + 1]) { dllimport = NewString(""); Printf(dllimport, argv[i + 1]); Swig_mark_arg(i); Swig_mark_arg(i + 1); i++; } else { Swig_arg_error(); } } else if (strcmp(argv[i], "-namespace") == 0) { if (argv[i + 1]) { namespce = NewString(""); Printf(namespce, argv[i + 1]); if (Len(namespce) == 0) { Delete(namespce); namespce = 0; } Swig_mark_arg(i); Swig_mark_arg(i + 1); i++; } else { Swig_arg_error(); } } else if ((strcmp(argv[i], "-noproxy") == 0)) { Swig_mark_arg(i); proxy_flag = false; } else if (strcmp(argv[i], "-oldvarnames") == 0) { Swig_mark_arg(i); old_variable_names = true; } else if (strcmp(argv[i], "-help") == 0) { Printf(stdout, "%s\n", usage); } } } // Add a symbol to the parser for conditional compilation Preprocessor_define("SWIGCSHARP 1", 0); // Add typemap definitions SWIG_typemap_lang("csharp"); SWIG_config_file("csharp.swg"); allow_overloading(); } /* --------------------------------------------------------------------- * top() * --------------------------------------------------------------------- */ virtual int top(Node *n) { // Get any options set in the module directive Node *optionsnode = Getattr(Getattr(n, "module"), "options"); if (optionsnode) { if (Getattr(optionsnode, "imclassname")) imclass_name = Copy(Getattr(optionsnode, "imclassname")); /* check if directors are enabled for this module. note: this * is a "master" switch, without which no director code will be * emitted. %feature("director") statements are also required * to enable directors for individual classes or methods. * * use %module(directors="1") modulename at the start of the * interface file to enable director generation. */ if (Getattr(optionsnode, "directors")) { allow_directors(); } if (Getattr(optionsnode, "dirprot")) { allow_dirprot(); } allow_allprotected(GetFlag(optionsnode, "allprotected")); } /* Initialize all of the output files */ String *outfile = Getattr(n, "outfile"); String *outfile_h = Getattr(n, "outfile_h"); if (!outfile) { Printf(stderr, "Unable to determine outfile\n"); SWIG_exit(EXIT_FAILURE); } f_begin = NewFile(outfile, "w", SWIG_output_files()); if (!f_begin) { FileErrorDisplay(outfile); SWIG_exit(EXIT_FAILURE); } if (directorsEnabled()) { if (!outfile_h) { Printf(stderr, "Unable to determine outfile_h\n"); SWIG_exit(EXIT_FAILURE); } f_runtime_h = NewFile(outfile_h, "w", SWIG_output_files()); if (!f_runtime_h) { FileErrorDisplay(outfile_h); SWIG_exit(EXIT_FAILURE); } } f_runtime = NewString(""); f_init = NewString(""); f_header = NewString(""); f_wrappers = NewString(""); f_directors_h = NewString(""); f_directors = 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("director", f_directors); Swig_register_filebyname("director_h", f_directors_h); swig_types_hash = NewHash(); filenames_list = NewList(); // Make the intermediary class and module class names. The intermediary class name can be set in the module directive. if (!imclass_name) { imclass_name = NewStringf("%sPINVOKE", Getattr(n, "name")); module_class_name = Copy(Getattr(n, "name")); } else { // Rename the module name if it is the same as intermediary class name - a backwards compatibility solution if (Cmp(imclass_name, Getattr(n, "name")) == 0) module_class_name = NewStringf("%sModule", Getattr(n, "name")); else module_class_name = Copy(Getattr(n, "name")); } // module class and intermediary classes are always created addSymbol(imclass_name, n); addSymbol(module_class_name, n); imclass_class_code = NewString(""); proxy_class_def = NewString(""); proxy_class_code = NewString(""); module_class_constants_code = NewString(""); imclass_baseclass = NewString(""); imclass_interfaces = NewString(""); imclass_class_modifiers = NewString(""); module_class_code = NewString(""); module_baseclass = NewString(""); module_interfaces = NewString(""); module_imports = NewString(""); module_class_modifiers = NewString(""); imclass_imports = NewString(""); imclass_cppcasts_code = NewString(""); director_connect_parms = NewString(""); upcasts_code = NewString(""); dmethods_seq = NewList(); dmethods_table = NewHash(); n_dmethods = 0; n_directors = 0; if (!dllimport) dllimport = Copy(module_class_name); Swig_banner(f_begin); Printf(f_runtime, "\n"); Printf(f_runtime, "#define SWIGCSHARP\n"); if (directorsEnabled()) { Printf(f_runtime, "#define SWIG_DIRECTORS\n"); /* Emit initial director header and director code: */ Swig_banner(f_directors_h); Printf(f_directors_h, "\n"); Printf(f_directors_h, "#ifndef SWIG_%s_WRAP_H_\n", module_class_name); Printf(f_directors_h, "#define SWIG_%s_WRAP_H_\n\n", module_class_name); Printf(f_directors, "\n\n"); Printf(f_directors, "/* ---------------------------------------------------\n"); Printf(f_directors, " * C++ director class methods\n"); Printf(f_directors, " * --------------------------------------------------- */\n\n"); if (outfile_h) Printf(f_directors, "#include \"%s\"\n\n", Swig_file_filename(outfile_h)); } Printf(f_runtime, "\n"); Swig_name_register("wrapper", "CSharp_%f"); if (old_variable_names) { Swig_name_register("set", "set_%n%v"); Swig_name_register("get", "get_%n%v"); } Printf(f_wrappers, "\n#ifdef __cplusplus\n"); Printf(f_wrappers, "extern \"C\" {\n"); Printf(f_wrappers, "#endif\n\n"); /* Emit code */ Language::top(n); if (directorsEnabled()) { // Insert director runtime into the f_runtime file (make it occur before %header section) Swig_insert_file("director.swg", f_runtime); } // Generate the intermediary class { String *filen = NewStringf("%s%s.cs", SWIG_output_directory(), imclass_name); File *f_im = NewFile(filen, "w", SWIG_output_files()); if (!f_im) { FileErrorDisplay(filen); SWIG_exit(EXIT_FAILURE); } Append(filenames_list, Copy(filen)); Delete(filen); filen = NULL; // Start writing out the intermediary class file emitBanner(f_im); addOpenNamespace(0, f_im); if (imclass_imports) Printf(f_im, "%s\n", imclass_imports); if (Len(imclass_class_modifiers) > 0) Printf(f_im, "%s ", imclass_class_modifiers); Printf(f_im, "%s ", imclass_name); if (imclass_baseclass && *Char(imclass_baseclass)) Printf(f_im, ": %s ", imclass_baseclass); if (Len(imclass_interfaces) > 0) Printv(f_im, "implements ", imclass_interfaces, " ", NIL); Printf(f_im, "{\n"); // Add the intermediary class methods Replaceall(imclass_class_code, "$module", module_class_name); Replaceall(imclass_class_code, "$imclassname", imclass_name); Replaceall(imclass_class_code, "$dllimport", dllimport); Printv(f_im, imclass_class_code, NIL); Printv(f_im, imclass_cppcasts_code, NIL); // Finish off the class Printf(f_im, "}\n"); addCloseNamespace(0, f_im); Close(f_im); } // Generate the C# module class { String *filen = NewStringf("%s%s.cs", SWIG_output_directory(), module_class_name); File *f_module = NewFile(filen, "w", SWIG_output_files()); if (!f_module) { FileErrorDisplay(filen); SWIG_exit(EXIT_FAILURE); } Append(filenames_list, Copy(filen)); Delete(filen); filen = NULL; // Start writing out the module class file emitBanner(f_module); addOpenNamespace(0, f_module); if (module_imports) Printf(f_module, "%s\n", module_imports); if (Len(module_class_modifiers) > 0) Printf(f_module, "%s ", module_class_modifiers); Printf(f_module, "%s ", module_class_name); if (module_baseclass && *Char(module_baseclass)) Printf(f_module, ": %s ", module_baseclass); if (Len(module_interfaces) > 0) Printv(f_module, "implements ", module_interfaces, " ", NIL); Printf(f_module, "{\n"); Replaceall(module_class_code, "$module", module_class_name); Replaceall(module_class_constants_code, "$module", module_class_name); Replaceall(module_class_code, "$imclassname", imclass_name); Replaceall(module_class_constants_code, "$imclassname", imclass_name); Replaceall(module_class_code, "$dllimport", dllimport); Replaceall(module_class_constants_code, "$dllimport", dllimport); // Add the wrapper methods Printv(f_module, module_class_code, NIL); // Write out all the global constants Printv(f_module, module_class_constants_code, NIL); // Finish off the class Printf(f_module, "}\n"); addCloseNamespace(0, f_module); Close(f_module); } if (upcasts_code) Printv(f_wrappers, upcasts_code, NIL); Printf(f_wrappers, "#ifdef __cplusplus\n"); Printf(f_wrappers, "}\n"); Printf(f_wrappers, "#endif\n"); // Output a C# type wrapper class for each SWIG type for (Iterator swig_type = First(swig_types_hash); swig_type.key; swig_type = Next(swig_type)) { emitTypeWrapperClass(swig_type.key, swig_type.item); } // Check for overwriting file problems on filesystems that are case insensitive Iterator it1; Iterator it2; for (it1 = First(filenames_list); it1.item; it1 = Next(it1)) { String *item1_lower = Swig_string_lower(it1.item); for (it2 = Next(it1); it2.item; it2 = Next(it2)) { String *item2_lower = Swig_string_lower(it2.item); if (it1.item && it2.item) { if (Strcmp(item1_lower, item2_lower) == 0) { Swig_warning(WARN_LANG_PORTABILITY_FILENAME, input_file, line_number, "Portability warning: File %s will be overwritten by %s on case insensitive filesystems such as " "Windows' FAT32 and NTFS unless the class/module name is renamed\n", it1.item, it2.item); } } Delete(item2_lower); } Delete(item1_lower); } Delete(swig_types_hash); swig_types_hash = NULL; Delete(filenames_list); filenames_list = NULL; Delete(imclass_name); imclass_name = NULL; Delete(imclass_class_code); imclass_class_code = NULL; Delete(proxy_class_def); proxy_class_def = NULL; Delete(proxy_class_code); proxy_class_code = NULL; Delete(module_class_constants_code); module_class_constants_code = NULL; Delete(imclass_baseclass); imclass_baseclass = NULL; Delete(imclass_interfaces); imclass_interfaces = NULL; Delete(imclass_class_modifiers); imclass_class_modifiers = NULL; Delete(module_class_name); module_class_name = NULL; Delete(module_class_code); module_class_code = NULL; Delete(module_baseclass); module_baseclass = NULL; Delete(module_interfaces); module_interfaces = NULL; Delete(module_imports); module_imports = NULL; Delete(module_class_modifiers); module_class_modifiers = NULL; Delete(imclass_imports); imclass_imports = NULL; Delete(imclass_cppcasts_code); imclass_cppcasts_code = NULL; Delete(upcasts_code); upcasts_code = NULL; Delete(dmethods_seq); dmethods_seq = NULL; Delete(dmethods_table); dmethods_table = NULL; Delete(namespce); namespce = NULL; n_dmethods = 0; /* Close all of the files */ Dump(f_runtime, f_begin); Dump(f_header, f_begin); if (directorsEnabled()) { Dump(f_directors, f_begin); Dump(f_directors_h, f_runtime_h); Printf(f_runtime_h, "\n"); Printf(f_runtime_h, "#endif\n"); Close(f_runtime_h); Delete(f_runtime_h); f_runtime_h = NULL; Delete(f_directors); f_directors = NULL; Delete(f_directors_h); f_directors_h = NULL; } Dump(f_wrappers, f_begin); Wrapper_pretty_print(f_init, f_begin); Delete(f_header); Delete(f_wrappers); Delete(f_init); Close(f_begin); Delete(f_runtime); Delete(f_begin); return SWIG_OK; } /* ----------------------------------------------------------------------------- * emitBanner() * ----------------------------------------------------------------------------- */ void emitBanner(File *f) { Printf(f, "/* ----------------------------------------------------------------------------\n"); Swig_banner_target_lang(f, " *"); Printf(f, " * ----------------------------------------------------------------------------- */\n\n"); } /*----------------------------------------------------------------------- * Add new director upcall signature *----------------------------------------------------------------------*/ UpcallData *addUpcallMethod(String *imclass_method, String *class_method, String *decl, String *overloaded_name) { UpcallData *udata; String *class_methodidx; Hash *new_udata; String *key = NewStringf("%s|%s", imclass_method, decl); ++curr_class_dmethod; /* Do we know about this director class already? */ if ((udata = Getattr(dmethods_table, key))) { Delete(key); return Getattr(udata, "methodoff"); } class_methodidx = NewStringf("%d", n_dmethods - first_class_dmethod); n_dmethods++; new_udata = NewHash(); Append(dmethods_seq, new_udata); Setattr(dmethods_table, key, new_udata); Setattr(new_udata, "method", Copy(class_method)); Setattr(new_udata, "class_methodidx", class_methodidx); Setattr(new_udata, "decl", Copy(decl)); Setattr(new_udata, "overname", Copy(overloaded_name)); Delete(key); return new_udata; } /*----------------------------------------------------------------------- * Get director upcall signature *----------------------------------------------------------------------*/ /* UpcallData * getUpcallMethodData(String *director_class, String *decl) { String *key = NewStringf("%s|%s", director_class, decl); UpcallData *udata = Getattr(dmethods_table, key); Delete(key); return udata; } */ /* ---------------------------------------------------------------------- * nativeWrapper() * ---------------------------------------------------------------------- */ virtual int nativeWrapper(Node *n) { String *wrapname = Getattr(n, "wrap:name"); if (!addSymbol(wrapname, n, imclass_name)) return SWIG_ERROR; if (Getattr(n, "type")) { Swig_save("nativeWrapper", n, "name", NIL); Setattr(n, "name", wrapname); native_function_flag = true; functionWrapper(n); Swig_restore(n); native_function_flag = false; } else { Swig_error(input_file, line_number, "No return type for %%native method %s.\n", Getattr(n, "wrap:name")); } return SWIG_OK; } /* ---------------------------------------------------------------------- * functionWrapper() * ---------------------------------------------------------------------- */ virtual int functionWrapper(Node *n) { String *symname = Getattr(n, "sym:name"); SwigType *t = Getattr(n, "type"); ParmList *l = Getattr(n, "parms"); String *tm; Parm *p; int i; String *c_return_type = NewString(""); String *im_return_type = NewString(""); String *cleanup = NewString(""); String *outarg = NewString(""); String *body = NewString(""); String *im_outattributes = 0; int num_arguments = 0; bool is_void_return; String *overloaded_name = getOverloadedName(n); if (!Getattr(n, "sym:overloaded")) { if (!addSymbol(Getattr(n, "sym:name"), n, imclass_name)) return SWIG_ERROR; } /* The rest of this function deals with generating the intermediary class wrapper function (that wraps a c/c++ function) and generating the PInvoke c code. Each C# wrapper function has a matching PInvoke c function call. */ // A new wrapper function object Wrapper *f = NewWrapper(); // Make a wrapper name for this function String *wname = Swig_name_wrapper(overloaded_name); /* Attach the non-standard typemaps to the parameter list. */ Swig_typemap_attach_parms("ctype", l, f); Swig_typemap_attach_parms("imtype", l, f); /* Get return types */ if ((tm = Swig_typemap_lookup("ctype", n, "", 0))) { String *ctypeout = Getattr(n, "tmap:ctype:out"); // the type in the ctype typemap's out attribute overrides the type in the typemap if (ctypeout) tm = ctypeout; Printf(c_return_type, "%s", tm); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CTYPE_UNDEF, input_file, line_number, "No ctype typemap defined for %s\n", SwigType_str(t, 0)); } if ((tm = Swig_typemap_lookup("imtype", n, "", 0))) { String *imtypeout = Getattr(n, "tmap:imtype:out"); // the type in the imtype typemap's out attribute overrides the type in the typemap if (imtypeout) tm = imtypeout; Printf(im_return_type, "%s", tm); im_outattributes = Getattr(n, "tmap:imtype:outattributes"); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSTYPE_UNDEF, input_file, line_number, "No imtype typemap defined for %s\n", SwigType_str(t, 0)); } is_void_return = (Cmp(c_return_type, "void") == 0); if (!is_void_return) Wrapper_add_localv(f, "jresult", c_return_type, "jresult", NIL); Printv(f->def, " SWIGEXPORT ", c_return_type, " SWIGSTDCALL ", wname, "(", NIL); // Emit all of the local variables for holding arguments. emit_parameter_variables(l, f); /* Attach the standard typemaps */ emit_attach_parmmaps(l, f); // Parameter overloading Setattr(n, "wrap:parms", l); Setattr(n, "wrap:name", wname); // Wrappers not wanted for some methods where the parameters cannot be overloaded in C# if (Getattr(n, "sym:overloaded")) { // Emit warnings for the few cases that can't be overloaded in C# and give up on generating wrapper Swig_overload_check(n); if (Getattr(n, "overload:ignore")) return SWIG_OK; } Printv(imclass_class_code, "\n [DllImport(\"", dllimport, "\", EntryPoint=\"", wname, "\")]\n", NIL); if (im_outattributes) Printf(imclass_class_code, " %s\n", im_outattributes); Printf(imclass_class_code, " public static extern %s %s(", im_return_type, overloaded_name); /* Get number of required and total arguments */ num_arguments = emit_num_arguments(l); int gencomma = 0; // Now walk the function parameter list and generate code to get arguments 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"); String *im_param_type = NewString(""); String *c_param_type = NewString(""); String *arg = NewString(""); Printf(arg, "j%s", ln); /* Get the ctype types of the parameter */ if ((tm = Getattr(p, "tmap:ctype"))) { Printv(c_param_type, tm, NIL); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CTYPE_UNDEF, input_file, line_number, "No ctype typemap defined for %s\n", SwigType_str(pt, 0)); } /* Get the intermediary class parameter types of the parameter */ if ((tm = Getattr(p, "tmap:imtype"))) { const String *inattributes = Getattr(p, "tmap:imtype:inattributes"); Printf(im_param_type, "%s%s", inattributes ? inattributes : empty_string, tm); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSTYPE_UNDEF, input_file, line_number, "No imtype typemap defined for %s\n", SwigType_str(pt, 0)); } /* Add parameter to intermediary class method */ if (gencomma) Printf(imclass_class_code, ", "); Printf(imclass_class_code, "%s %s", im_param_type, arg); // Add parameter to C function Printv(f->def, gencomma ? ", " : "", c_param_type, " ", arg, NIL); gencomma = 1; // Get typemap for this argument if ((tm = Getattr(p, "tmap:in"))) { canThrow(n, "in", p); Replaceall(tm, "$source", arg); /* deprecated */ Replaceall(tm, "$target", ln); /* deprecated */ Replaceall(tm, "$arg", arg); /* deprecated? */ Replaceall(tm, "$input", arg); Setattr(p, "emit:input", arg); Printf(f->code, "%s\n", tm); p = Getattr(p, "tmap:in:next"); } else { Swig_warning(WARN_TYPEMAP_IN_UNDEF, input_file, line_number, "Unable to use type %s as a function argument.\n", SwigType_str(pt, 0)); p = nextSibling(p); } Delete(im_param_type); Delete(c_param_type); Delete(arg); } /* Insert constraint checking code */ for (p = l; p;) { if ((tm = Getattr(p, "tmap:check"))) { canThrow(n, "check", p); Replaceall(tm, "$target", Getattr(p, "lname")); /* deprecated */ Replaceall(tm, "$arg", Getattr(p, "emit:input")); /* deprecated? */ Replaceall(tm, "$input", Getattr(p, "emit:input")); Printv(f->code, tm, "\n", NIL); p = Getattr(p, "tmap:check:next"); } else { p = nextSibling(p); } } /* Insert cleanup code */ for (p = l; p;) { if ((tm = Getattr(p, "tmap:freearg"))) { canThrow(n, "freearg", p); Replaceall(tm, "$source", Getattr(p, "emit:input")); /* deprecated */ Replaceall(tm, "$arg", Getattr(p, "emit:input")); /* deprecated? */ Replaceall(tm, "$input", Getattr(p, "emit:input")); Printv(cleanup, tm, "\n", NIL); p = Getattr(p, "tmap:freearg:next"); } else { p = nextSibling(p); } } /* Insert argument output code */ for (p = l; p;) { if ((tm = Getattr(p, "tmap:argout"))) { canThrow(n, "argout", p); Replaceall(tm, "$source", Getattr(p, "emit:input")); /* deprecated */ Replaceall(tm, "$target", Getattr(p, "lname")); /* deprecated */ Replaceall(tm, "$arg", Getattr(p, "emit:input")); /* deprecated? */ Replaceall(tm, "$result", "jresult"); Replaceall(tm, "$input", Getattr(p, "emit:input")); Printv(outarg, tm, "\n", NIL); p = Getattr(p, "tmap:argout:next"); } else { p = nextSibling(p); } } // Look for usage of throws typemap and the canthrow flag ParmList *throw_parm_list = NULL; if ((throw_parm_list = Getattr(n, "catchlist"))) { Swig_typemap_attach_parms("throws", throw_parm_list, f); for (p = throw_parm_list; p; p = nextSibling(p)) { if ((tm = Getattr(p, "tmap:throws"))) { canThrow(n, "throws", p); } } } String *null_attribute = 0; // Now write code to make the function call if (!native_function_flag) { if (Cmp(nodeType(n), "constant") == 0) { // Wrapping a constant hack Swig_save("functionWrapper", n, "wrap:action", NIL); // below based on Swig_VargetToFunction() SwigType *ty = Swig_wrapped_var_type(Getattr(n, "type"), use_naturalvar_mode(n)); Setattr(n, "wrap:action", NewStringf("result = (%s)(%s);", SwigType_lstr(ty, 0), Getattr(n, "value"))); } Swig_director_emit_dynamic_cast(n, f); String *actioncode = emit_action(n); if (Cmp(nodeType(n), "constant") == 0) Swig_restore(n); /* Return value if necessary */ if ((tm = Swig_typemap_lookup_out("out", n, "result", f, actioncode))) { canThrow(n, "out", n); Replaceall(tm, "$source", "result"); /* deprecated */ Replaceall(tm, "$target", "jresult"); /* deprecated */ Replaceall(tm, "$result", "jresult"); if (GetFlag(n, "feature:new")) Replaceall(tm, "$owner", "1"); else Replaceall(tm, "$owner", "0"); Printf(f->code, "%s", tm); null_attribute = Getattr(n, "tmap:out:null"); if (Len(tm)) Printf(f->code, "\n"); } else { Swig_warning(WARN_TYPEMAP_OUT_UNDEF, input_file, line_number, "Unable to use return type %s in function %s.\n", SwigType_str(t, 0), Getattr(n, "name")); } emit_return_variable(n, t, 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))) { canThrow(n, "newfree", n); Replaceall(tm, "$source", "result"); /* deprecated */ Printf(f->code, "%s\n", tm); } } /* See if there is any return cleanup code */ if (!native_function_flag) { if ((tm = Swig_typemap_lookup("ret", n, "result", 0))) { canThrow(n, "ret", n); Replaceall(tm, "$source", "result"); /* deprecated */ Printf(f->code, "%s\n", tm); } } /* Finish C function and intermediary class function definitions */ Printf(imclass_class_code, ")"); Printf(imclass_class_code, ";\n"); Printf(f->def, ") {"); if (!is_void_return) Printv(f->code, " return jresult;\n", NIL); Printf(f->code, "}\n"); /* Substitute the cleanup code */ Replaceall(f->code, "$cleanup", cleanup); /* Substitute the function name */ Replaceall(f->code, "$symname", symname); /* Contract macro modification */ if (Replaceall(f->code, "SWIG_contract_assert(", "SWIG_contract_assert($null, ") > 0) { Setattr(n, "csharp:canthrow", "1"); } if (!null_attribute) Replaceall(f->code, "$null", "0"); else Replaceall(f->code, "$null", null_attribute); /* Dump the function out */ if (!native_function_flag) { Wrapper_print(f, f_wrappers); // Handle %csexception which sets the canthrow attribute if (Getattr(n, "feature:except:canthrow")) Setattr(n, "csharp:canthrow", "1"); // A very simple check (it is not foolproof) to help typemap/feature writers for // throwing C# exceptions from unmanaged code. It checks for the common methods which // set a pending C# exception... the 'canthrow' typemap/feature attribute must be set // so that code which checks for pending exceptions is added in the C# proxy method. if (!Getattr(n, "csharp:canthrow")) { if (Strstr(f->code, "SWIG_exception")) { Swig_warning(WARN_CSHARP_CANTHROW, input_file, line_number, "Unmanaged code contains a call to SWIG_exception and C# code does not handle pending exceptions via the canthrow attribute.\n"); } else if (Strstr(f->code, "SWIG_CSharpSetPendingException")) { Swig_warning(WARN_CSHARP_CANTHROW, input_file, line_number, "Unmanaged code contains a call to a SWIG_CSharpSetPendingException method and C# code does not handle pending exceptions via the canthrow attribute.\n"); } } } if (!(proxy_flag && is_wrapping_class()) && !enum_constant_flag) { moduleClassFunctionHandler(n); } /* * Generate the proxy class properties for public member variables. * Not for enums and constants. */ if (proxy_flag && wrapping_member_flag && !enum_constant_flag) { // Capitalize the first letter in the variable in the getter/setter function name bool getter_flag = Cmp(symname, Swig_name_set(getNSpace(), Swig_name_member(0, proxy_class_name, variable_name))) != 0; String *getter_setter_name = NewString(""); if (!getter_flag) Printf(getter_setter_name, "set"); else Printf(getter_setter_name, "get"); Putc(toupper((int) *Char(variable_name)), getter_setter_name); Printf(getter_setter_name, "%s", Char(variable_name) + 1); Setattr(n, "proxyfuncname", getter_setter_name); Setattr(n, "imfuncname", symname); proxyClassFunctionHandler(n); Delete(getter_setter_name); } Delete(c_return_type); Delete(im_return_type); Delete(cleanup); Delete(outarg); Delete(body); Delete(overloaded_name); DelWrapper(f); return SWIG_OK; } /* ----------------------------------------------------------------------- * variableWrapper() * ----------------------------------------------------------------------- */ virtual int variableWrapper(Node *n) { Language::variableWrapper(n); return SWIG_OK; } /* ----------------------------------------------------------------------- * globalvariableHandler() * ------------------------------------------------------------------------ */ virtual int globalvariableHandler(Node *n) { generate_property_declaration_flag = true; variable_name = Getattr(n, "sym:name"); global_variable_flag = true; int ret = Language::globalvariableHandler(n); global_variable_flag = false; generate_property_declaration_flag = false; if (proxy_flag) { Printf(module_class_code, "\n }\n\n"); } return ret; } /* ---------------------------------------------------------------------- * enumDeclaration() * * C/C++ enums can be mapped in one of 4 ways, depending on the cs:enum feature specified: * 1) Simple enums - simple constant within the proxy class or module class * 2) Typeunsafe enums - simple constant in a C# class (class named after the c++ enum name) * 3) Typesafe enum - typesafe enum pattern (class named after the c++ enum name) * 4) Proper enums - proper C# enum * Anonymous enums always default to 1) * ---------------------------------------------------------------------- */ virtual int enumDeclaration(Node *n) { if (!ImportMode) { if (getCurrentClass() && (cplus_mode != PUBLIC)) return SWIG_NOWRAP; String *nspace = Getattr(n, "sym:nspace"); // NSpace/getNSpace() only works during Language::enumDeclaration call if (proxy_flag && !is_wrapping_class()) { // Global enums / enums in a namespace assert(!full_imclass_name); if (!nspace) { full_imclass_name = NewStringf("%s", imclass_name); } else { if (namespce) { full_imclass_name = NewStringf("%s.%s", namespce, imclass_name); } else { full_imclass_name = NewStringf("%s", imclass_name); } } } enum_code = NewString(""); String *symname = Getattr(n, "sym:name"); String *constants_code = (proxy_flag && is_wrapping_class())? proxy_class_constants_code : module_class_constants_code; EnumFeature enum_feature = decodeEnumFeature(n); String *typemap_lookup_type = Getattr(n, "name"); if ((enum_feature != SimpleEnum) && symname && typemap_lookup_type) { // Wrap (non-anonymous) C/C++ enum within a typesafe, typeunsafe or proper C# enum String *scope = 0; if (nspace || proxy_class_name) { scope = NewString(""); if (nspace) Printf(scope, "%s", nspace); if (proxy_class_name) Printv(scope, nspace ? "." : "", proxy_class_name, NIL); } if (!addSymbol(symname, n, scope)) return SWIG_ERROR; // Pure C# baseclass and interfaces const String *pure_baseclass = typemapLookup(n, "csbase", typemap_lookup_type, WARN_NONE); const String *pure_interfaces = typemapLookup(n, "csinterfaces", typemap_lookup_type, WARN_NONE); // Class attributes const String *csattributes = typemapLookup(n, "csattributes", typemap_lookup_type, WARN_NONE); if (csattributes && *Char(csattributes)) Printf(enum_code, "%s\n", csattributes); // Emit the enum Printv(enum_code, typemapLookup(n, "csclassmodifiers", typemap_lookup_type, WARN_CSHARP_TYPEMAP_CLASSMOD_UNDEF), // Class modifiers (enum modifiers really) " ", symname, (*Char(pure_baseclass) || *Char(pure_interfaces)) ? " : " : "", pure_baseclass, ((*Char(pure_baseclass)) && *Char(pure_interfaces)) ? // Interfaces ", " : "", pure_interfaces, " {\n", NIL); Delete(scope); } else { // Wrap C++ enum with integers - just indicate start of enum with a comment, no comment for anonymous enums of any sort if (symname && !Getattr(n, "unnamedinstance")) Printf(constants_code, " // %s \n", symname); } // Emit each enum item Language::enumDeclaration(n); if ((enum_feature != SimpleEnum) && symname && typemap_lookup_type) { // Wrap (non-anonymous) C/C++ enum within a typesafe, typeunsafe or proper C# enum // Finish the enum declaration // Typemaps are used to generate the enum definition in a similar manner to proxy classes. Printv(enum_code, (enum_feature == ProperEnum) ? "\n" : typemapLookup(n, "csbody", typemap_lookup_type, WARN_CSHARP_TYPEMAP_CSBODY_UNDEF), // main body of class typemapLookup(n, "cscode", typemap_lookup_type, WARN_NONE), // extra C# code "}", NIL); Replaceall(enum_code, "$csclassname", symname); // Substitute $enumvalues - intended usage is for typesafe enums if (Getattr(n, "enumvalues")) Replaceall(enum_code, "$enumvalues", Getattr(n, "enumvalues")); else Replaceall(enum_code, "$enumvalues", ""); if (proxy_flag && is_wrapping_class()) { // Enums defined within the C++ class are defined within the proxy class // Add extra indentation Replaceall(enum_code, "\n", "\n "); Replaceall(enum_code, " \n", "\n"); Printv(proxy_class_constants_code, " ", enum_code, "\n\n", NIL); } else { // Global enums are defined in their own file String *output_directory = outputDirectory(nspace); String *filen = NewStringf("%s%s.cs", output_directory, symname); File *f_enum = NewFile(filen, "w", SWIG_output_files()); if (!f_enum) { FileErrorDisplay(filen); SWIG_exit(EXIT_FAILURE); } Append(filenames_list, Copy(filen)); Delete(filen); filen = NULL; // Start writing out the enum file emitBanner(f_enum); addOpenNamespace(nspace, f_enum); Printv(f_enum, typemapLookup(n, "csimports", typemap_lookup_type, WARN_NONE), // Import statements "\n", enum_code, "\n", NIL); addCloseNamespace(nspace, f_enum); Close(f_enum); Delete(output_directory); } } else { // Wrap C++ enum with simple constant Printf(enum_code, "\n"); if (proxy_flag && is_wrapping_class()) Printv(proxy_class_constants_code, enum_code, NIL); else Printv(module_class_constants_code, enum_code, NIL); } Delete(enum_code); enum_code = NULL; if (proxy_flag && !is_wrapping_class()) { Delete(full_imclass_name); full_imclass_name = 0; } } return SWIG_OK; } /* ---------------------------------------------------------------------- * enumvalueDeclaration() * ---------------------------------------------------------------------- */ virtual int enumvalueDeclaration(Node *n) { if (getCurrentClass() && (cplus_mode != PUBLIC)) return SWIG_NOWRAP; Swig_require("enumvalueDeclaration", n, "*name", "?value", NIL); String *symname = Getattr(n, "sym:name"); String *value = Getattr(n, "value"); String *name = Getattr(n, "name"); Node *parent = parentNode(n); int unnamedinstance = GetFlag(parent, "unnamedinstance"); String *parent_name = Getattr(parent, "name"); String *nspace = getNSpace(); String *tmpValue; // Strange hack from parent method if (value) tmpValue = NewString(value); else tmpValue = NewString(name); // Note that this is used in enumValue() amongst other places Setattr(n, "value", tmpValue); // Deal with enum values that are not int int swigtype = SwigType_type(Getattr(n, "type")); if (swigtype == T_BOOL) { const char *val = Equal(Getattr(n, "enumvalue"), "true") ? "1" : "0"; Setattr(n, "enumvalue", val); } else if (swigtype == T_CHAR) { String *val = NewStringf("'%s'", Getattr(n, "enumvalue")); Setattr(n, "enumvalue", val); Delete(val); } { EnumFeature enum_feature = decodeEnumFeature(parent); // Add to language symbol table String *scope = 0; if (unnamedinstance || !parent_name || enum_feature == SimpleEnum) { if (proxy_class_name) { scope = NewString(""); if (nspace) Printf(scope, "%s.", nspace); Printf(scope, "%s", proxy_class_name); } else { scope = Copy(module_class_name); } } else { scope = NewString(""); if (nspace) Printf(scope, "%s.", nspace); if (proxy_class_name) Printf(scope, "%s.", proxy_class_name); Printf(scope, "%s",Getattr(parent, "sym:name")); } if (!addSymbol(name, n, scope)) return SWIG_ERROR; const String *csattributes = Getattr(n, "feature:cs:attributes"); if ((enum_feature == ProperEnum) && parent_name && !unnamedinstance) { // Wrap (non-anonymous) C/C++ enum with a proper C# enum // Emit the enum item. if (!GetFlag(n, "firstenumitem")) Printf(enum_code, ",\n"); if (csattributes) Printf(enum_code, " %s\n", csattributes); Printf(enum_code, " %s", symname); // Check for the %csconstvalue feature String *value = Getattr(n, "feature:cs:constvalue"); // Note that the enum value must be a true constant and cannot be set from a PINVOKE call, thus no support for %csconst(0) value = value ? value : Getattr(n, "enumvalue"); if (value) { Printf(enum_code, " = %s", value); } } else { // Wrap C/C++ enums with constant integers or use the typesafe enum pattern SwigType *typemap_lookup_type = parent_name ? parent_name : NewString("enum "); Setattr(n, "type", typemap_lookup_type); const String *tm = typemapLookup(n, "cstype", typemap_lookup_type, WARN_CSHARP_TYPEMAP_CSTYPE_UNDEF); String *return_type = Copy(tm); substituteClassname(typemap_lookup_type, return_type); const String *methodmods = Getattr(n, "feature:cs:methodmodifiers"); methodmods = methodmods ? methodmods : (is_public(n) ? public_string : protected_string); if (csattributes) Printf(enum_code, " %s\n", csattributes); if ((enum_feature == TypesafeEnum) && parent_name && !unnamedinstance) { // Wrap (non-anonymous) enum using the typesafe enum pattern if (Getattr(n, "enumvalue")) { String *value = enumValue(n); Printf(enum_code, " %s static readonly %s %s = new %s(\"%s\", %s);\n", methodmods, return_type, symname, return_type, symname, value); Delete(value); } else { Printf(enum_code, " %s static readonly %s %s = new %s(\"%s\");\n", methodmods, return_type, symname, return_type, symname); } } else { // Simple integer constants // Note these are always generated for anonymous enums, no matter what enum_feature is specified // Code generated is the same for SimpleEnum and TypeunsafeEnum -> the class it is generated into is determined later // The %csconst feature determines how the constant value is obtained int const_feature_flag = GetFlag(n, "feature:cs:const"); const char *const_readonly = const_feature_flag ? "const" : "static readonly"; String *value = enumValue(n); Printf(enum_code, " %s %s %s %s = %s;\n", methodmods, const_readonly, return_type, symname, value); Delete(value); } Delete(return_type); } // Add the enum value to the comma separated list being constructed in the enum declaration. String *enumvalues = Getattr(parent, "enumvalues"); if (!enumvalues) Setattr(parent, "enumvalues", Copy(symname)); else Printv(enumvalues, ", ", symname, NIL); Delete(scope); } Delete(tmpValue); Swig_restore(n); return SWIG_OK; } /* ----------------------------------------------------------------------- * constantWrapper() * Used for wrapping constants - #define or %constant. * Also for inline initialised const static primitive type member variables (short, int, double, enums etc). * C# static const variables are generated for these. * If the %csconst(1) feature is used then the C constant value is used to initialise the C# const variable. * If not, a PINVOKE method is generated to get the C constant value for initialisation of the C# const variable. * However, if the %csconstvalue feature is used, it overrides all other ways to generate the initialisation. * Also note that this method might be called for wrapping enum items (when the enum is using %csconst(0)). * ------------------------------------------------------------------------ */ virtual int constantWrapper(Node *n) { String *symname = Getattr(n, "sym:name"); SwigType *t = Getattr(n, "type"); ParmList *l = Getattr(n, "parms"); String *tm; String *return_type = NewString(""); String *constants_code = NewString(""); Swig_save("constantWrapper", n, "value", NIL); bool is_enum_item = (Cmp(nodeType(n), "enumitem") == 0); const String *itemname = (proxy_flag && wrapping_member_flag) ? variable_name : symname; if (!is_enum_item) { String *scope = 0; if (proxy_class_name) { String *nspace = getNSpace(); scope = NewString(""); if (nspace) Printf(scope, "%s.", nspace); Printf(scope, "%s", proxy_class_name); } else { scope = Copy(module_class_name); } if (!addSymbol(itemname, n, scope)) return SWIG_ERROR; Delete(scope); } // The %csconst feature determines how the constant value is obtained int const_feature_flag = GetFlag(n, "feature:cs:const"); /* Adjust the enum type for the Swig_typemap_lookup. * We want the same jstype typemap for all the enum items so we use the enum type (parent node). */ if (is_enum_item) { t = Getattr(parentNode(n), "enumtype"); Setattr(n, "type", t); } /* Attach the non-standard typemaps to the parameter list. */ Swig_typemap_attach_parms("cstype", l, NULL); /* Get C# return types */ bool classname_substituted_flag = false; if ((tm = Swig_typemap_lookup("cstype", n, "", 0))) { String *cstypeout = Getattr(n, "tmap:cstype:out"); // the type in the cstype typemap's out attribute overrides the type in the typemap if (cstypeout) tm = cstypeout; classname_substituted_flag = substituteClassname(t, tm); Printf(return_type, "%s", tm); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSWTYPE_UNDEF, input_file, line_number, "No cstype typemap defined for %s\n", SwigType_str(t, 0)); } // Add the stripped quotes back in String *new_value = NewString(""); if (SwigType_type(t) == T_STRING) { Printf(new_value, "\"%s\"", Copy(Getattr(n, "value"))); Setattr(n, "value", new_value); } else if (SwigType_type(t) == T_CHAR) { Printf(new_value, "\'%s\'", Copy(Getattr(n, "value"))); Setattr(n, "value", new_value); } const String *outattributes = Getattr(n, "tmap:cstype:outattributes"); if (outattributes) Printf(constants_code, " %s\n", outattributes); const String *methodmods = Getattr(n, "feature:cs:methodmodifiers"); methodmods = methodmods ? methodmods : (is_public(n) ? public_string : protected_string); Printf(constants_code, " %s %s %s %s = ", methodmods, (const_feature_flag ? "const" : "static readonly"), return_type, itemname); // Check for the %csconstvalue feature String *value = Getattr(n, "feature:cs:constvalue"); if (value) { Printf(constants_code, "%s;\n", value); } else if (!const_feature_flag) { // Default enum and constant handling will work with any type of C constant and initialises the C# variable from C through a PINVOKE call. if (classname_substituted_flag) { if (SwigType_isenum(t)) { // This handles wrapping of inline initialised const enum static member variables (not when wrapping enum items - ignored later on) Printf(constants_code, "(%s)%s.%s();\n", return_type, full_imclass_name, Swig_name_get(getNSpace(), symname)); } else { // This handles function pointers using the %constant directive Printf(constants_code, "new %s(%s.%s(), false);\n", return_type, full_imclass_name ? full_imclass_name : imclass_name, Swig_name_get(getNSpace(), symname)); } } else { Printf(constants_code, "%s.%s();\n", full_imclass_name ? full_imclass_name : imclass_name, Swig_name_get(getNSpace(), symname)); } // Each constant and enum value is wrapped with a separate PInvoke function call SetFlag(n, "feature:immutable"); enum_constant_flag = true; variableWrapper(n); enum_constant_flag = false; } else { // Alternative constant handling will use the C syntax to make a true C# constant and hope that it compiles as C# code if (Getattr(n, "wrappedasconstant")) { if (SwigType_type(t) == T_CHAR) Printf(constants_code, "\'%s\';\n", Getattr(n, "staticmembervariableHandler:value")); else Printf(constants_code, "%s;\n", Getattr(n, "staticmembervariableHandler:value")); } else { Printf(constants_code, "%s;\n", Getattr(n, "value")); } } // Emit the generated code to appropriate place // Enums only emit the intermediate and PINVOKE methods, so no proxy or module class wrapper methods needed if (!is_enum_item) { if (proxy_flag && wrapping_member_flag) Printv(proxy_class_constants_code, constants_code, NIL); else Printv(module_class_constants_code, constants_code, NIL); } // Cleanup Swig_restore(n); Delete(new_value); Delete(return_type); Delete(constants_code); return SWIG_OK; } /* ----------------------------------------------------------------------------- * insertDirective() * ----------------------------------------------------------------------------- */ virtual int insertDirective(Node *n) { String *code = Getattr(n, "code"); Replaceall(code, "$module", module_class_name); Replaceall(code, "$imclassname", imclass_name); Replaceall(code, "$dllimport", dllimport); return Language::insertDirective(n); } /* ----------------------------------------------------------------------------- * pragmaDirective() * * Valid Pragmas: * imclassbase - base (extends) for the intermediary class * imclassclassmodifiers - class modifiers for the intermediary class * imclasscode - text (C# code) is copied verbatim to the intermediary class * imclassimports - import statements for the intermediary class * imclassinterfaces - interface (implements) for the intermediary class * * modulebase - base (extends) for the module class * moduleclassmodifiers - class modifiers for the module class * modulecode - text (C# code) is copied verbatim to the module class * moduleimports - import statements for the module class * moduleinterfaces - interface (implements) for the module class * * ----------------------------------------------------------------------------- */ virtual int pragmaDirective(Node *n) { if (!ImportMode) { String *lang = Getattr(n, "lang"); String *code = Getattr(n, "name"); String *value = Getattr(n, "value"); if (Strcmp(lang, "csharp") == 0) { String *strvalue = NewString(value); Replaceall(strvalue, "\\\"", "\""); if (Strcmp(code, "imclassbase") == 0) { Delete(imclass_baseclass); imclass_baseclass = Copy(strvalue); } else if (Strcmp(code, "imclassclassmodifiers") == 0) { Delete(imclass_class_modifiers); imclass_class_modifiers = Copy(strvalue); } else if (Strcmp(code, "imclasscode") == 0) { Printf(imclass_class_code, "%s\n", strvalue); } else if (Strcmp(code, "imclassimports") == 0) { Delete(imclass_imports); imclass_imports = Copy(strvalue); } else if (Strcmp(code, "imclassinterfaces") == 0) { Delete(imclass_interfaces); imclass_interfaces = Copy(strvalue); } else if (Strcmp(code, "modulebase") == 0) { Delete(module_baseclass); module_baseclass = Copy(strvalue); } else if (Strcmp(code, "moduleclassmodifiers") == 0) { Delete(module_class_modifiers); module_class_modifiers = Copy(strvalue); } else if (Strcmp(code, "modulecode") == 0) { Printf(module_class_code, "%s\n", strvalue); } else if (Strcmp(code, "moduleimports") == 0) { Delete(module_imports); module_imports = Copy(strvalue); } else if (Strcmp(code, "moduleinterfaces") == 0) { Delete(module_interfaces); module_interfaces = Copy(strvalue); } else { Swig_error(input_file, line_number, "Unrecognized pragma.\n"); } Delete(strvalue); } } return Language::pragmaDirective(n); } /* ----------------------------------------------------------------------------- * emitProxyClassDefAndCPPCasts() * ----------------------------------------------------------------------------- */ void emitProxyClassDefAndCPPCasts(Node *n) { String *c_classname = SwigType_namestr(Getattr(n, "name")); String *c_baseclass = NULL; String *baseclass = NULL; String *c_baseclassname = NULL; SwigType *typemap_lookup_type = Getattr(n, "classtypeobj"); bool feature_director = Swig_directorclass(n) ? true : false; // Inheritance from pure C# classes Node *attributes = NewHash(); const String *pure_baseclass = typemapLookup(n, "csbase", typemap_lookup_type, WARN_NONE, attributes); bool purebase_replace = GetFlag(attributes, "tmap:csbase:replace") ? true : false; bool purebase_notderived = GetFlag(attributes, "tmap:csbase:notderived") ? true : false; Delete(attributes); // C++ inheritance if (!purebase_replace) { List *baselist = Getattr(n, "bases"); if (baselist) { Iterator base = First(baselist); while (base.item && GetFlag(base.item, "feature:ignore")) { base = Next(base); } if (base.item) { c_baseclassname = Getattr(base.item, "name"); baseclass = Copy(getProxyName(c_baseclassname)); if (baseclass) c_baseclass = SwigType_namestr(Getattr(base.item, "name")); base = Next(base); /* Warn about multiple inheritance for additional base class(es) */ while (base.item) { if (GetFlag(base.item, "feature:ignore")) { base = Next(base); continue; } String *proxyclassname = Getattr(n, "classtypeobj"); String *baseclassname = Getattr(base.item, "name"); Swig_warning(WARN_CSHARP_MULTIPLE_INHERITANCE, Getfile(n), Getline(n), "Warning for %s proxy: Base %s ignored. Multiple inheritance is not supported in Java.\n", SwigType_namestr(proxyclassname), SwigType_namestr(baseclassname)); base = Next(base); } } } } bool derived = baseclass && getProxyName(c_baseclassname); if (derived && purebase_notderived) pure_baseclass = empty_string; const String *wanted_base = baseclass ? baseclass : pure_baseclass; if (purebase_replace) { wanted_base = pure_baseclass; derived = false; Delete(baseclass); baseclass = NULL; if (purebase_notderived) Swig_error(Getfile(n), Getline(n), "The csbase typemap for proxy %s must contain just one of the 'replace' or 'notderived' attributes.\n", typemap_lookup_type); } else if (Len(pure_baseclass) > 0 && Len(baseclass) > 0) { Swig_warning(WARN_CSHARP_MULTIPLE_INHERITANCE, Getfile(n), Getline(n), "Warning for %s proxy: Base %s ignored. Multiple inheritance is not supported in C#. " "Perhaps you need one of the 'replace' or 'notderived' attributes in the csbase typemap?\n", typemap_lookup_type, pure_baseclass); } // Pure C# interfaces const String *pure_interfaces = typemapLookup(n, derived ? "csinterfaces_derived" : "csinterfaces", typemap_lookup_type, WARN_NONE); // Start writing the proxy class Printv(proxy_class_def, typemapLookup(n, "csimports", typemap_lookup_type, WARN_NONE), // Import statements "\n", NIL); // Class attributes const String *csattributes = typemapLookup(n, "csattributes", typemap_lookup_type, WARN_NONE); if (csattributes && *Char(csattributes)) Printf(proxy_class_def, "%s\n", csattributes); Printv(proxy_class_def, typemapLookup(n, "csclassmodifiers", typemap_lookup_type, WARN_CSHARP_TYPEMAP_CLASSMOD_UNDEF), // Class modifiers " $csclassname", // Class name and base class (*Char(wanted_base) || *Char(pure_interfaces)) ? " : " : "", wanted_base, (*Char(wanted_base) && *Char(pure_interfaces)) ? // Interfaces ", " : "", pure_interfaces, " {", derived ? typemapLookup(n, "csbody_derived", typemap_lookup_type, WARN_CSHARP_TYPEMAP_CSBODY_UNDEF) : // main body of class typemapLookup(n, "csbody", typemap_lookup_type, WARN_CSHARP_TYPEMAP_CSBODY_UNDEF), // main body of class NIL); // C++ destructor is wrapped by the Dispose method // Note that the method name is specified in a typemap attribute called methodname String *destruct = NewString(""); const String *tm = NULL; attributes = NewHash(); String *destruct_methodname = NULL; String *destruct_methodmodifiers = NULL; if (derived) { tm = typemapLookup(n, "csdestruct_derived", typemap_lookup_type, WARN_NONE, attributes); destruct_methodname = Getattr(attributes, "tmap:csdestruct_derived:methodname"); destruct_methodmodifiers = Getattr(attributes, "tmap:csdestruct_derived:methodmodifiers"); } else { tm = typemapLookup(n, "csdestruct", typemap_lookup_type, WARN_NONE, attributes); destruct_methodname = Getattr(attributes, "tmap:csdestruct:methodname"); destruct_methodmodifiers = Getattr(attributes, "tmap:csdestruct:methodmodifiers"); } if (tm && *Char(tm)) { if (!destruct_methodname) { Swig_error(Getfile(n), Getline(n), "No methodname attribute defined in csdestruct%s typemap for %s\n", (derived ? "_derived" : ""), proxy_class_name); } if (!destruct_methodmodifiers) { Swig_error(Getfile(n), Getline(n), "No methodmodifiers attribute defined in csdestruct%s typemap for %s.\n", (derived ? "_derived" : ""), proxy_class_name); } } // Emit the Finalize and Dispose methods if (tm) { // Finalize method if (*Char(destructor_call)) { Printv(proxy_class_def, typemapLookup(n, "csfinalize", typemap_lookup_type, WARN_NONE), NIL); } // Dispose method Printv(destruct, tm, NIL); if (*Char(destructor_call)) Replaceall(destruct, "$imcall", destructor_call); else Replaceall(destruct, "$imcall", "throw new MethodAccessException(\"C++ destructor does not have public access\")"); if (*Char(destruct)) Printv(proxy_class_def, "\n ", destruct_methodmodifiers, " ", derived ? "override" : "virtual", " void ", destruct_methodname, "() ", destruct, "\n", NIL); } if (feature_director) { // Generate director connect method // put this in classDirectorEnd ??? Printf(proxy_class_code, " private void SwigDirectorConnect() {\n"); int i; for (i = first_class_dmethod; i < curr_class_dmethod; ++i) { UpcallData *udata = Getitem(dmethods_seq, i); String *method = Getattr(udata, "method"); String *methid = Getattr(udata, "class_methodidx"); String *overname = Getattr(udata, "overname"); Printf(proxy_class_code, " if (SwigDerivedClassHasMethod(\"%s\", swigMethodTypes%s))\n", method, methid); Printf(proxy_class_code, " swigDelegate%s = new SwigDelegate%s_%s(SwigDirector%s);\n", methid, proxy_class_name, methid, overname); } String *director_connect_method_name = Swig_name_member(getNSpace(), proxy_class_name, "director_connect"); Printf(proxy_class_code, " %s.%s(swigCPtr", imclass_name, director_connect_method_name); for (i = first_class_dmethod; i < curr_class_dmethod; ++i) { UpcallData *udata = Getitem(dmethods_seq, i); String *methid = Getattr(udata, "class_methodidx"); Printf(proxy_class_code, ", swigDelegate%s", methid); } Printf(proxy_class_code, ");\n"); Printf(proxy_class_code, " }\n"); if (first_class_dmethod < curr_class_dmethod) { // Only emit if there is at least one director method Printf(proxy_class_code, "\n"); Printf(proxy_class_code, " private bool SwigDerivedClassHasMethod(string methodName, Type[] methodTypes) {\n"); Printf(proxy_class_code, " System.Reflection.MethodInfo methodInfo = this.GetType().GetMethod(methodName, System.Reflection.BindingFlags.Public | System.Reflection.BindingFlags.NonPublic | System.Reflection.BindingFlags.Instance, null, methodTypes, null);\n"); Printf(proxy_class_code, " bool hasDerivedMethod = methodInfo.DeclaringType.IsSubclassOf(typeof(%s));\n", proxy_class_name); /* Could add this code to cover corner case where the GetMethod() returns a method which allows type * promotion, eg it will return foo(double), if looking for foo(int). if (hasDerivedMethod) { hasDerivedMethod = false; if (methodInfo != null) { hasDerivedMethod = true; ParameterInfo[] parameterArray1 = methodInfo.GetParameters(); for (int i=0; i 0) Printv(proxy_class_code, director_delegate_callback, NIL); if (Len(director_delegate_definitions) > 0) Printv(proxy_class_code, "\n", director_delegate_definitions, NIL); if (Len(director_delegate_instances) > 0) Printv(proxy_class_code, "\n", director_delegate_instances, NIL); if (Len(director_method_types) > 0) Printv(proxy_class_code, "\n", director_method_types, NIL); Delete(director_callback_typedefs); director_callback_typedefs = NULL; Delete(director_callbacks); director_callbacks = NULL; Delete(director_delegate_callback); director_delegate_callback = NULL; Delete(director_delegate_definitions); director_delegate_definitions = NULL; Delete(director_delegate_instances); director_delegate_instances = NULL; Delete(director_method_types); director_method_types = NULL; Delete(director_connect_parms); director_connect_parms = NULL; Delete(director_connect_method_name); } Delete(attributes); Delete(destruct); // Emit extra user code Printv(proxy_class_def, typemapLookup(n, "cscode", typemap_lookup_type, WARN_NONE), // extra C# code "\n", NIL); // Add code to do C++ casting to base class (only for classes in an inheritance hierarchy) if (derived) { String *smartptr = Getattr(n, "feature:smartptr"); String *upcast_method = Swig_name_member(getNSpace(), proxy_class_name, smartptr != 0 ? "SWIGSmartPtrUpcast" : "SWIGUpcast"); String *wname = Swig_name_wrapper(upcast_method); Printv(imclass_cppcasts_code, "\n [DllImport(\"", dllimport, "\", EntryPoint=\"", wname, "\")]\n", NIL); Printf(imclass_cppcasts_code, " public static extern IntPtr %s(IntPtr jarg1);\n", upcast_method); Replaceall(imclass_cppcasts_code, "$csclassname", proxy_class_name); if (smartptr) { SwigType *spt = Swig_cparse_type(smartptr); if (spt) { SwigType *smart = SwigType_typedef_resolve_all(spt); Delete(spt); SwigType *bsmart = Copy(smart); SwigType *rclassname = SwigType_typedef_resolve_all(c_classname); SwigType *rbaseclass = SwigType_typedef_resolve_all(c_baseclass); Replaceall(bsmart, rclassname, rbaseclass); Delete(rclassname); Delete(rbaseclass); String *smartnamestr = SwigType_namestr(smart); String *bsmartnamestr = SwigType_namestr(bsmart); Printv(upcasts_code, "SWIGEXPORT ", bsmartnamestr, " * SWIGSTDCALL ", wname, "(", smartnamestr, " *jarg1) {\n", " return jarg1 ? new ", bsmartnamestr, "(*jarg1) : 0;\n" "}\n", "\n", NIL); Delete(bsmartnamestr); Delete(smartnamestr); Delete(bsmart); } else { Swig_error(Getfile(n), Getline(n), "Invalid type (%s) in 'smartptr' feature for class %s.\n", smartptr, c_classname); } } else { Printv(upcasts_code, "SWIGEXPORT ", c_baseclass, " * SWIGSTDCALL ", wname, "(", c_classname, " *jarg1) {\n", " return (", c_baseclass, " *)jarg1;\n" "}\n", "\n", NIL); } Delete(wname); Delete(upcast_method); } Delete(baseclass); } /* ---------------------------------------------------------------------- * classHandler() * ---------------------------------------------------------------------- */ virtual int classHandler(Node *n) { String *nspace = getNSpace(); File *f_proxy = NULL; if (proxy_flag) { proxy_class_name = NewString(Getattr(n, "sym:name")); if (!nspace) { full_proxy_class_name = NewStringf("%s", proxy_class_name); full_imclass_name = NewStringf("%s", imclass_name); if (Cmp(proxy_class_name, imclass_name) == 0) { Printf(stderr, "Class name cannot be equal to intermediary class name: %s\n", proxy_class_name); SWIG_exit(EXIT_FAILURE); } if (Cmp(proxy_class_name, module_class_name) == 0) { Printf(stderr, "Class name cannot be equal to module class name: %s\n", proxy_class_name); SWIG_exit(EXIT_FAILURE); } } else { if (namespce) { full_proxy_class_name = NewStringf("%s.%s.%s", namespce, nspace, proxy_class_name); full_imclass_name = NewStringf("%s.%s", namespce, imclass_name); } else { full_proxy_class_name = NewStringf("%s.%s", nspace, proxy_class_name); full_imclass_name = NewStringf("%s", imclass_name); } } if (!addSymbol(proxy_class_name, n, nspace)) return SWIG_ERROR; String *output_directory = outputDirectory(nspace); String *filen = NewStringf("%s%s.cs", output_directory, proxy_class_name); f_proxy = NewFile(filen, "w", SWIG_output_files()); if (!f_proxy) { FileErrorDisplay(filen); SWIG_exit(EXIT_FAILURE); } Append(filenames_list, Copy(filen)); Delete(filen); filen = NULL; // Start writing out the proxy class file emitBanner(f_proxy); addOpenNamespace(nspace, f_proxy); Clear(proxy_class_def); Clear(proxy_class_code); destructor_call = NewString(""); proxy_class_constants_code = NewString(""); } Language::classHandler(n); if (proxy_flag) { emitProxyClassDefAndCPPCasts(n); String *csclazzname = Swig_name_member(getNSpace(), proxy_class_name, ""); // mangled full proxy class name Replaceall(proxy_class_def, "$csclassname", proxy_class_name); Replaceall(proxy_class_code, "$csclassname", proxy_class_name); Replaceall(proxy_class_constants_code, "$csclassname", proxy_class_name); Replaceall(proxy_class_def, "$csclazzname", csclazzname); Replaceall(proxy_class_code, "$csclazzname", csclazzname); Replaceall(proxy_class_constants_code, "$csclazzname", csclazzname); Replaceall(proxy_class_def, "$module", module_class_name); Replaceall(proxy_class_code, "$module", module_class_name); Replaceall(proxy_class_constants_code, "$module", module_class_name); Replaceall(proxy_class_def, "$imclassname", full_imclass_name); Replaceall(proxy_class_code, "$imclassname", full_imclass_name); Replaceall(proxy_class_constants_code, "$imclassname", full_imclass_name); Replaceall(proxy_class_def, "$dllimport", dllimport); Replaceall(proxy_class_code, "$dllimport", dllimport); Replaceall(proxy_class_constants_code, "$dllimport", dllimport); Printv(f_proxy, proxy_class_def, proxy_class_code, NIL); // Write out all the constants if (Len(proxy_class_constants_code) != 0) Printv(f_proxy, proxy_class_constants_code, NIL); Printf(f_proxy, "}\n"); addCloseNamespace(nspace, f_proxy); Close(f_proxy); f_proxy = NULL; /* Output the downcast method, if necessary. Note: There's no other really good place to put this code, since Abstract Base Classes (ABCs) can and should have downcasts, making the constructorHandler() a bad place (because ABCs don't get to have constructors emitted.) */ if (GetFlag(n, "feature:javadowncast")) { String *downcast_method = Swig_name_member(getNSpace(), proxy_class_name, "SWIGDowncast"); String *wname = Swig_name_wrapper(downcast_method); String *norm_name = SwigType_namestr(Getattr(n, "name")); Printf(imclass_class_code, " public final static native %s %s(long cPtrBase, boolean cMemoryOwn);\n", proxy_class_name, downcast_method); Wrapper *dcast_wrap = NewWrapper(); Printf(dcast_wrap->def, "SWIGEXPORT jobject SWIGSTDCALL %s(JNIEnv *jenv, jclass jcls, jlong jCPtrBase, jboolean cMemoryOwn) {", wname); Printf(dcast_wrap->code, " Swig::Director *director = (Swig::Director *) 0;\n"); Printf(dcast_wrap->code, " jobject jresult = (jobject) 0;\n"); Printf(dcast_wrap->code, " %s *obj = *((%s **)&jCPtrBase);\n", norm_name, norm_name); Printf(dcast_wrap->code, " if (obj) director = dynamic_cast(obj);\n"); Printf(dcast_wrap->code, " if (director) jresult = director->swig_get_self(jenv);\n"); Printf(dcast_wrap->code, " return jresult;\n"); Printf(dcast_wrap->code, "}\n"); Wrapper_print(dcast_wrap, f_wrappers); DelWrapper(dcast_wrap); Delete(norm_name); Delete(wname); Delete(downcast_method); } emitDirectorExtraMethods(n); Delete(csclazzname); Delete(proxy_class_name); proxy_class_name = NULL; Delete(full_proxy_class_name); full_proxy_class_name = NULL; Delete(full_imclass_name); full_imclass_name = NULL; Delete(destructor_call); destructor_call = NULL; Delete(proxy_class_constants_code); proxy_class_constants_code = NULL; } return SWIG_OK; } /* ---------------------------------------------------------------------- * memberfunctionHandler() * ---------------------------------------------------------------------- */ virtual int memberfunctionHandler(Node *n) { Language::memberfunctionHandler(n); if (proxy_flag) { String *overloaded_name = getOverloadedName(n); String *intermediary_function_name = Swig_name_member(getNSpace(), proxy_class_name, overloaded_name); Setattr(n, "proxyfuncname", Getattr(n, "sym:name")); Setattr(n, "imfuncname", intermediary_function_name); proxyClassFunctionHandler(n); Delete(overloaded_name); } return SWIG_OK; } /* ---------------------------------------------------------------------- * staticmemberfunctionHandler() * ---------------------------------------------------------------------- */ virtual int staticmemberfunctionHandler(Node *n) { static_flag = true; Language::staticmemberfunctionHandler(n); if (proxy_flag) { String *overloaded_name = getOverloadedName(n); String *intermediary_function_name = Swig_name_member(getNSpace(), proxy_class_name, overloaded_name); Setattr(n, "proxyfuncname", Getattr(n, "sym:name")); Setattr(n, "imfuncname", intermediary_function_name); proxyClassFunctionHandler(n); Delete(overloaded_name); } static_flag = false; return SWIG_OK; } /* ----------------------------------------------------------------------------- * proxyClassFunctionHandler() * * Function called for creating a C# wrapper function around a c++ function in the * proxy class. Used for both static and non-static C++ class functions. * C++ class static functions map to C# static functions. * Two extra attributes in the Node must be available. These are "proxyfuncname" - * the name of the C# class proxy function, which in turn will call "imfuncname" - * the intermediary (PInvoke) function name in the intermediary class. * ----------------------------------------------------------------------------- */ void proxyClassFunctionHandler(Node *n) { SwigType *t = Getattr(n, "type"); ParmList *l = Getattr(n, "parms"); String *intermediary_function_name = Getattr(n, "imfuncname"); String *proxy_function_name = Getattr(n, "proxyfuncname"); String *tm; Parm *p; Parm *last_parm = 0; int i; String *imcall = NewString(""); String *return_type = NewString(""); String *function_code = NewString(""); bool setter_flag = false; String *pre_code = NewString(""); String *post_code = NewString(""); String *terminator_code = NewString(""); if (!proxy_flag) return; // Wrappers not wanted for some methods where the parameters cannot be overloaded in C# if (Getattr(n, "overload:ignore")) return; // Don't generate proxy method for additional explicitcall method used in directors if (GetFlag(n, "explicitcall")) return; if (l) { if (SwigType_type(Getattr(l, "type")) == T_VOID) { l = nextSibling(l); } } /* Attach the non-standard typemaps to the parameter list */ Swig_typemap_attach_parms("in", l, NULL); Swig_typemap_attach_parms("cstype", l, NULL); Swig_typemap_attach_parms("csin", l, NULL); /* Get return types */ if ((tm = Swig_typemap_lookup("cstype", n, "", 0))) { // Note that in the case of polymorphic (covariant) return types, the method's return type is changed to be the base of the C++ return type SwigType *covariant = Getattr(n, "covariant"); String *cstypeout = Getattr(n, "tmap:cstype:out"); // the type in the cstype typemap's out attribute overrides the type in the typemap if (cstypeout) tm = cstypeout; substituteClassname(covariant ? covariant : t, tm); Printf(return_type, "%s", tm); if (covariant) Swig_warning(WARN_CSHARP_COVARIANT_RET, input_file, line_number, "Covariant return types not supported in C#. Proxy method will return %s.\n", SwigType_str(covariant, 0)); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSWTYPE_UNDEF, input_file, line_number, "No cstype typemap defined for %s\n", SwigType_str(t, 0)); } if (wrapping_member_flag && !enum_constant_flag) { // Properties setter_flag = (Cmp(Getattr(n, "sym:name"), Swig_name_set(getNSpace(), Swig_name_member(0, proxy_class_name, variable_name))) == 0); if (setter_flag) Swig_typemap_attach_parms("csvarin", l, NULL); } /* Start generating the proxy function */ const String *outattributes = Getattr(n, "tmap:cstype:outattributes"); if (outattributes) Printf(function_code, " %s\n", outattributes); const String *csattributes = Getattr(n, "feature:cs:attributes"); if (csattributes) Printf(function_code, " %s\n", csattributes); const String *methodmods = Getattr(n, "feature:cs:methodmodifiers"); if (methodmods) { if (is_smart_pointer()) { // Smart pointer classes do not mirror the inheritance hierarchy of the underlying pointer type, so no virtual/override/new required. String *mmods = Copy(methodmods); Replaceall(mmods, "override", ""); Replaceall(mmods, "virtual", ""); Replaceall(mmods, "new", ""); Chop(mmods); // remove trailing whitespace Printf(function_code, " %s ", mmods); Delete(mmods); } else { Printf(function_code, " %s ", methodmods); } } else { methodmods = (is_public(n) ? public_string : protected_string); Printf(function_code, " %s ", methodmods); if (!is_smart_pointer()) { // Smart pointer classes do not mirror the inheritance hierarchy of the underlying pointer type, so no virtual/override/new required. if (Getattr(n, "override")) Printf(function_code, "override "); else if (checkAttribute(n, "storage", "virtual")) Printf(function_code, "virtual "); if (Getattr(n, "hides")) Printf(function_code, "new "); } } if (static_flag) Printf(function_code, "static "); Printf(function_code, "%s %s(", return_type, proxy_function_name); Printv(imcall, full_imclass_name, ".$imfuncname(", NIL); if (!static_flag) Printf(imcall, "swigCPtr"); emit_mark_varargs(l); int gencomma = !static_flag; /* Output each parameter */ for (i = 0, p = l; p; i++) { /* Ignored varargs */ if (checkAttribute(p, "varargs:ignore", "1")) { p = nextSibling(p); continue; } /* Ignored parameters */ if (checkAttribute(p, "tmap:in:numinputs", "0")) { p = Getattr(p, "tmap:in:next"); continue; } /* Ignore the 'this' argument for variable wrappers */ if (!(variable_wrapper_flag && i == 0)) { SwigType *pt = Getattr(p, "type"); String *param_type = NewString(""); if (setter_flag) last_parm = p; /* Get the C# parameter type */ if ((tm = Getattr(p, "tmap:cstype"))) { substituteClassname(pt, tm); const String *inattributes = Getattr(p, "tmap:cstype:inattributes"); Printf(param_type, "%s%s", inattributes ? inattributes : empty_string, tm); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSWTYPE_UNDEF, input_file, line_number, "No cstype typemap defined for %s\n", SwigType_str(pt, 0)); } if (gencomma) Printf(imcall, ", "); String *arg = makeParameterName(n, p, i, setter_flag); // Use typemaps to transform type used in C# wrapper function (in proxy class) to type used in PInvoke function (in intermediary class) if ((tm = Getattr(p, "tmap:csin"))) { substituteClassname(pt, tm); Replaceall(tm, "$csinput", arg); String *pre = Getattr(p, "tmap:csin:pre"); if (pre) { substituteClassname(pt, pre); Replaceall(pre, "$csinput", arg); if (Len(pre_code) > 0) Printf(pre_code, "\n"); Printv(pre_code, pre, NIL); } String *post = Getattr(p, "tmap:csin:post"); if (post) { substituteClassname(pt, post); Replaceall(post, "$csinput", arg); if (Len(post_code) > 0) Printf(post_code, "\n"); Printv(post_code, post, NIL); } String *terminator = Getattr(p, "tmap:csin:terminator"); if (terminator) { substituteClassname(pt, terminator); Replaceall(terminator, "$csinput", arg); if (Len(terminator_code) > 0) Insert(terminator_code, 0, "\n"); Insert(terminator_code, 0, terminator); } Printv(imcall, tm, NIL); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSIN_UNDEF, input_file, line_number, "No csin typemap defined for %s\n", SwigType_str(pt, 0)); } /* Add parameter to proxy function */ if (gencomma >= 2) Printf(function_code, ", "); gencomma = 2; Printf(function_code, "%s %s", param_type, arg); Delete(arg); Delete(param_type); } p = Getattr(p, "tmap:in:next"); } Printf(imcall, ")"); Printf(function_code, ")"); // Transform return type used in PInvoke function (in intermediary class) to type used in C# wrapper function (in proxy class) if ((tm = Swig_typemap_lookup("csout", n, "", 0))) { excodeSubstitute(n, tm, "csout", n); bool is_pre_code = Len(pre_code) > 0; bool is_post_code = Len(post_code) > 0; bool is_terminator_code = Len(terminator_code) > 0; if (is_pre_code || is_post_code || is_terminator_code) { Replaceall(tm, "\n ", "\n "); // add extra indentation to code in typemap if (is_post_code) { Insert(tm, 0, "\n try "); Printv(tm, " finally {\n", post_code, "\n }", NIL); } else { Insert(tm, 0, "\n "); } if (is_pre_code) { Insert(tm, 0, pre_code); Insert(tm, 0, "\n"); } if (is_terminator_code) { Printv(tm, "\n", terminator_code, NIL); } Insert(tm, 0, "{"); Printf(tm, "\n }"); } if (GetFlag(n, "feature:new")) Replaceall(tm, "$owner", "true"); else Replaceall(tm, "$owner", "false"); substituteClassname(t, tm); // For director methods: generate code to selectively make a normal polymorphic call or // an explicit method call - needed to prevent infinite recursion calls in director methods. Node *explicit_n = Getattr(n, "explicitcallnode"); if (explicit_n) { String *ex_overloaded_name = getOverloadedName(explicit_n); String *ex_intermediary_function_name = Swig_name_member(getNSpace(), proxy_class_name, ex_overloaded_name); String *ex_imcall = Copy(imcall); Replaceall(ex_imcall, "$imfuncname", ex_intermediary_function_name); Replaceall(imcall, "$imfuncname", intermediary_function_name); String *excode = NewString(""); Node *directorNode = Getattr(n, "directorNode"); if (directorNode) { UpcallData *udata = Getattr(directorNode, "upcalldata"); String *methid = Getattr(udata, "class_methodidx"); if (!Cmp(return_type, "void")) Printf(excode, "if (SwigDerivedClassHasMethod(\"%s\", swigMethodTypes%s)) %s; else %s", proxy_function_name, methid, ex_imcall, imcall); else Printf(excode, "(SwigDerivedClassHasMethod(\"%s\", swigMethodTypes%s) ? %s : %s)", proxy_function_name, methid, ex_imcall, imcall); Clear(imcall); Printv(imcall, excode, NIL); } else { // probably an ignored method or nodirector } Delete(excode); Delete(ex_overloaded_name); } else { Replaceall(imcall, "$imfuncname", intermediary_function_name); } Replaceall(tm, "$imcall", imcall); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSOUT_UNDEF, input_file, line_number, "No csout typemap defined for %s\n", SwigType_str(t, 0)); } if (wrapping_member_flag && !enum_constant_flag) { // Properties if (generate_property_declaration_flag) { // Ensure the declaration is generated just once should the property contain both a set and get // Get the C# variable type - obtained differently depending on whether a setter is required. String *variable_type = return_type; if (setter_flag) { p = last_parm; // (last parameter is the only parameter for properties) SwigType *pt = Getattr(p, "type"); if ((tm = Getattr(p, "tmap:cstype"))) { substituteClassname(pt, tm); String *cstypeout = Getattr(p, "tmap:cstype:out"); // the type in the cstype typemap's out attribute overrides the type in the typemap variable_type = cstypeout ? cstypeout : tm; } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSOUT_UNDEF, input_file, line_number, "No csvarin typemap defined for %s\n", SwigType_str(pt, 0)); } } const String *csattributes = Getattr(n, "feature:cs:attributes"); if (csattributes) Printf(proxy_class_code, " %s\n", csattributes); const String *methodmods = Getattr(n, "feature:cs:methodmodifiers"); if (!methodmods) methodmods = (is_public(n) ? public_string : protected_string); Printf(proxy_class_code, " %s %s%s %s {", methodmods, static_flag ? "static " : "", variable_type, variable_name); } generate_property_declaration_flag = false; if (setter_flag) { // Setter method p = last_parm; // (last parameter is the only parameter for properties) SwigType *pt = Getattr(p, "type"); if ((tm = Getattr(p, "tmap:csvarin"))) { substituteClassname(pt, tm); Replaceall(tm, "$csinput", "value"); Replaceall(tm, "$imcall", imcall); excodeSubstitute(n, tm, "csvarin", p); Printf(proxy_class_code, "%s", tm); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSOUT_UNDEF, input_file, line_number, "No csvarin typemap defined for %s\n", SwigType_str(pt, 0)); } } else { // Getter method if ((tm = Swig_typemap_lookup("csvarout", n, "", 0))) { if (GetFlag(n, "feature:new")) Replaceall(tm, "$owner", "true"); else Replaceall(tm, "$owner", "false"); substituteClassname(t, tm); Replaceall(tm, "$imcall", imcall); excodeSubstitute(n, tm, "csvarout", n); Printf(proxy_class_code, "%s", tm); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSOUT_UNDEF, input_file, line_number, "No csvarout typemap defined for %s\n", SwigType_str(t, 0)); } } } else { // Normal function call Printf(function_code, " %s\n\n", tm ? (const String *) tm : empty_string); Printv(proxy_class_code, function_code, NIL); } Delete(pre_code); Delete(post_code); Delete(terminator_code); Delete(function_code); Delete(return_type); Delete(imcall); } /* ---------------------------------------------------------------------- * constructorHandler() * ---------------------------------------------------------------------- */ virtual int constructorHandler(Node *n) { ParmList *l = Getattr(n, "parms"); String *tm; Parm *p; int i; String *function_code = NewString(""); String *helper_code = NewString(""); // Holds code for the constructor helper method generated only when the csin typemap has code in the pre or post attributes String *helper_args = NewString(""); String *pre_code = NewString(""); String *post_code = NewString(""); String *terminator_code = NewString(""); String *im_return_type = NewString(""); bool feature_director = (parentNode(n) && Swig_directorclass(n)); Language::constructorHandler(n); // Wrappers not wanted for some methods where the parameters cannot be overloaded in C# if (Getattr(n, "overload:ignore")) return SWIG_OK; if (proxy_flag) { String *overloaded_name = getOverloadedName(n); String *mangled_overname = Swig_name_construct(getNSpace(), overloaded_name); String *imcall = NewString(""); const String *csattributes = Getattr(n, "feature:cs:attributes"); if (csattributes) { Printf(function_code, " %s\n", csattributes); Printf(helper_code, " %s\n", csattributes); } const String *methodmods = Getattr(n, "feature:cs:methodmodifiers"); methodmods = methodmods ? methodmods : (is_public(n) ? public_string : protected_string); tm = Getattr(n, "tmap:imtype"); // typemaps were attached earlier to the node String *imtypeout = Getattr(n, "tmap:imtype:out"); // the type in the imtype typemap's out attribute overrides the type in the typemap if (imtypeout) tm = imtypeout; Printf(im_return_type, "%s", tm); Printf(function_code, " %s %s(", methodmods, proxy_class_name); Printf(helper_code, " static private %s SwigConstruct%s(", im_return_type, proxy_class_name); Printv(imcall, full_imclass_name, ".", mangled_overname, "(", NIL); /* Attach the non-standard typemaps to the parameter list */ Swig_typemap_attach_parms("in", l, NULL); Swig_typemap_attach_parms("cstype", l, NULL); Swig_typemap_attach_parms("csin", l, NULL); emit_mark_varargs(l); int gencomma = 0; /* Output each parameter */ for (i = 0, p = l; p; i++) { /* Ignored varargs */ if (checkAttribute(p, "varargs:ignore", "1")) { p = nextSibling(p); continue; } /* Ignored parameters */ if (checkAttribute(p, "tmap:in:numinputs", "0")) { p = Getattr(p, "tmap:in:next"); continue; } SwigType *pt = Getattr(p, "type"); String *param_type = NewString(""); /* Get the C# parameter type */ if ((tm = Getattr(p, "tmap:cstype"))) { substituteClassname(pt, tm); const String *inattributes = Getattr(p, "tmap:cstype:inattributes"); Printf(param_type, "%s%s", inattributes ? inattributes : empty_string, tm); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSWTYPE_UNDEF, input_file, line_number, "No cstype typemap defined for %s\n", SwigType_str(pt, 0)); } if (gencomma) Printf(imcall, ", "); String *arg = makeParameterName(n, p, i, false); String *cshin = 0; // Use typemaps to transform type used in C# wrapper function (in proxy class) to type used in PInvoke function (in intermediary class) if ((tm = Getattr(p, "tmap:csin"))) { substituteClassname(pt, tm); Replaceall(tm, "$csinput", arg); String *pre = Getattr(p, "tmap:csin:pre"); if (pre) { substituteClassname(pt, pre); Replaceall(pre, "$csinput", arg); if (Len(pre_code) > 0) Printf(pre_code, "\n"); Printv(pre_code, pre, NIL); } String *post = Getattr(p, "tmap:csin:post"); if (post) { substituteClassname(pt, post); Replaceall(post, "$csinput", arg); if (Len(post_code) > 0) Printf(post_code, "\n"); Printv(post_code, post, NIL); } String *terminator = Getattr(p, "tmap:csin:terminator"); if (terminator) { substituteClassname(pt, terminator); Replaceall(terminator, "$csinput", arg); if (Len(terminator_code) > 0) Insert(terminator_code, 0, "\n"); Insert(terminator_code, 0, terminator); } cshin = Getattr(p, "tmap:csin:cshin"); if (cshin) Replaceall(cshin, "$csinput", arg); Printv(imcall, tm, NIL); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSIN_UNDEF, input_file, line_number, "No csin typemap defined for %s\n", SwigType_str(pt, 0)); } /* Add parameter to proxy function */ if (gencomma) { Printf(function_code, ", "); Printf(helper_code, ", "); Printf(helper_args, ", "); } Printf(function_code, "%s %s", param_type, arg); Printf(helper_code, "%s %s", param_type, arg); Printf(helper_args, "%s", cshin ? cshin : arg); ++gencomma; Delete(cshin); Delete(arg); Delete(param_type); p = Getattr(p, "tmap:in:next"); } Printf(imcall, ")"); Printf(function_code, ")"); Printf(helper_code, ")"); /* Insert the csconstruct typemap, doing the replacement for $directorconnect, as needed */ Hash *attributes = NewHash(); String *construct_tm = Copy(typemapLookup(n, "csconstruct", Getattr(n, "name"), WARN_CSHARP_TYPEMAP_CSCONSTRUCT_UNDEF, attributes)); if (construct_tm) { if (!feature_director) { Replaceall(construct_tm, "$directorconnect", ""); } else { String *connect_attr = Getattr(attributes, "tmap:csconstruct:directorconnect"); if (connect_attr) { Replaceall(construct_tm, "$directorconnect", connect_attr); } else { Swig_warning(WARN_CSHARP_NO_DIRECTORCONNECT_ATTR, input_file, line_number, "\"directorconnect\" attribute missing in %s \"csconstruct\" typemap.\n", Getattr(n, "name")); Replaceall(construct_tm, "$directorconnect", ""); } } Printv(function_code, " ", construct_tm, NIL); } excodeSubstitute(n, function_code, "csconstruct", attributes); bool is_pre_code = Len(pre_code) > 0; bool is_post_code = Len(post_code) > 0; bool is_terminator_code = Len(terminator_code) > 0; if (is_pre_code || is_post_code || is_terminator_code) { Printf(helper_code, " {\n"); if (is_pre_code) { Printv(helper_code, pre_code, "\n", NIL); } if (is_post_code) { Printf(helper_code, " try {\n"); Printv(helper_code, " return ", imcall, ";\n", NIL); Printv(helper_code, " } finally {\n", post_code, "\n }", NIL); } else { Printv(helper_code, " return ", imcall, ";", NIL); } if (is_terminator_code) { Printv(helper_code, "\n", terminator_code, NIL); } Printf(helper_code, "\n }\n"); String *helper_name = NewStringf("%s.SwigConstruct%s(%s)", proxy_class_name, proxy_class_name, helper_args); String *im_outattributes = Getattr(n, "tmap:imtype:outattributes"); if (im_outattributes) Printf(proxy_class_code, " %s\n", im_outattributes); Printv(proxy_class_code, helper_code, "\n", NIL); Replaceall(function_code, "$imcall", helper_name); Delete(helper_name); } else { Replaceall(function_code, "$imcall", imcall); } Printv(proxy_class_code, function_code, "\n", NIL); Delete(helper_args); Delete(im_return_type); Delete(pre_code); Delete(post_code); Delete(terminator_code); Delete(construct_tm); Delete(attributes); Delete(overloaded_name); Delete(imcall); } return SWIG_OK; } /* ---------------------------------------------------------------------- * destructorHandler() * ---------------------------------------------------------------------- */ virtual int destructorHandler(Node *n) { Language::destructorHandler(n); String *symname = Getattr(n, "sym:name"); if (proxy_flag) { Printv(destructor_call, full_imclass_name, ".", Swig_name_destroy(getNSpace(), symname), "(swigCPtr)", NIL); } return SWIG_OK; } /* ---------------------------------------------------------------------- * membervariableHandler() * ---------------------------------------------------------------------- */ virtual int membervariableHandler(Node *n) { generate_property_declaration_flag = true; variable_name = Getattr(n, "sym:name"); wrapping_member_flag = true; variable_wrapper_flag = true; Language::membervariableHandler(n); wrapping_member_flag = false; variable_wrapper_flag = false; generate_property_declaration_flag = false; Printf(proxy_class_code, "\n }\n\n"); return SWIG_OK; } /* ---------------------------------------------------------------------- * staticmembervariableHandler() * ---------------------------------------------------------------------- */ virtual int staticmembervariableHandler(Node *n) { bool static_const_member_flag = (Getattr(n, "value") == 0); generate_property_declaration_flag = true; variable_name = Getattr(n, "sym:name"); wrapping_member_flag = true; static_flag = true; Language::staticmembervariableHandler(n); wrapping_member_flag = false; static_flag = false; generate_property_declaration_flag = false; if (static_const_member_flag) Printf(proxy_class_code, "\n }\n\n"); return SWIG_OK; } /* ---------------------------------------------------------------------- * memberconstantHandler() * ---------------------------------------------------------------------- */ virtual int memberconstantHandler(Node *n) { variable_name = Getattr(n, "sym:name"); wrapping_member_flag = true; Language::memberconstantHandler(n); wrapping_member_flag = false; return SWIG_OK; } /* ----------------------------------------------------------------------------- * getOverloadedName() * ----------------------------------------------------------------------------- */ String *getOverloadedName(Node *n) { /* A C# HandleRef is used for all classes in the SWIG intermediary class. * The intermediary class methods are thus mangled when overloaded to give * a unique name. */ String *overloaded_name = NewStringf("%s", Getattr(n, "sym:name")); if (Getattr(n, "sym:overloaded")) { Printv(overloaded_name, Getattr(n, "sym:overname"), NIL); } return overloaded_name; } /* ----------------------------------------------------------------------------- * moduleClassFunctionHandler() * ----------------------------------------------------------------------------- */ void moduleClassFunctionHandler(Node *n) { SwigType *t = Getattr(n, "type"); ParmList *l = Getattr(n, "parms"); String *tm; Parm *p; Parm *last_parm = 0; int i; String *imcall = NewString(""); String *return_type = NewString(""); String *function_code = NewString(""); int num_arguments = 0; String *overloaded_name = getOverloadedName(n); String *func_name = NULL; bool setter_flag = false; String *pre_code = NewString(""); String *post_code = NewString(""); String *terminator_code = NewString(""); if (l) { if (SwigType_type(Getattr(l, "type")) == T_VOID) { l = nextSibling(l); } } /* Attach the non-standard typemaps to the parameter list */ Swig_typemap_attach_parms("cstype", l, NULL); Swig_typemap_attach_parms("csin", l, NULL); /* Get return types */ if ((tm = Swig_typemap_lookup("cstype", n, "", 0))) { String *cstypeout = Getattr(n, "tmap:cstype:out"); // the type in the cstype typemap's out attribute overrides the type in the typemap if (cstypeout) tm = cstypeout; substituteClassname(t, tm); Printf(return_type, "%s", tm); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSWTYPE_UNDEF, input_file, line_number, "No cstype typemap defined for %s\n", SwigType_str(t, 0)); } /* Change function name for global variables */ if (proxy_flag && global_variable_flag) { // Capitalize the first letter in the variable to create the getter/setter function name func_name = NewString(""); setter_flag = (Cmp(Getattr(n, "sym:name"), Swig_name_set(getNSpace(), variable_name)) == 0); if (setter_flag) Printf(func_name, "set"); else Printf(func_name, "get"); Putc(toupper((int) *Char(variable_name)), func_name); Printf(func_name, "%s", Char(variable_name) + 1); if (setter_flag) Swig_typemap_attach_parms("csvarin", l, NULL); } else { func_name = Copy(Getattr(n, "sym:name")); } /* Start generating the function */ const String *outattributes = Getattr(n, "tmap:cstype:outattributes"); if (outattributes) Printf(function_code, " %s\n", outattributes); const String *csattributes = Getattr(n, "feature:cs:attributes"); if (csattributes) Printf(function_code, " %s\n", csattributes); const String *methodmods = Getattr(n, "feature:cs:methodmodifiers"); methodmods = methodmods ? methodmods : (is_public(n) ? public_string : protected_string); Printf(function_code, " %s static %s %s(", methodmods, return_type, func_name); Printv(imcall, imclass_name, ".", overloaded_name, "(", NIL); /* Get number of required and total arguments */ num_arguments = emit_num_arguments(l); bool global_or_member_variable = global_variable_flag || (wrapping_member_flag && !enum_constant_flag); int gencomma = 0; /* Output each parameter */ for (i = 0, p = l; i < num_arguments; i++) { /* Ignored parameters */ while (checkAttribute(p, "tmap:in:numinputs", "0")) { p = Getattr(p, "tmap:in:next"); } SwigType *pt = Getattr(p, "type"); String *param_type = NewString(""); last_parm = p; /* Get the C# parameter type */ if ((tm = Getattr(p, "tmap:cstype"))) { substituteClassname(pt, tm); const String *inattributes = Getattr(p, "tmap:cstype:inattributes"); Printf(param_type, "%s%s", inattributes ? inattributes : empty_string, tm); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSWTYPE_UNDEF, input_file, line_number, "No cstype typemap defined for %s\n", SwigType_str(pt, 0)); } if (gencomma) Printf(imcall, ", "); String *arg = makeParameterName(n, p, i, global_or_member_variable); // Use typemaps to transform type used in C# wrapper function (in proxy class) to type used in PInvoke function (in intermediary class) if ((tm = Getattr(p, "tmap:csin"))) { substituteClassname(pt, tm); Replaceall(tm, "$csinput", arg); String *pre = Getattr(p, "tmap:csin:pre"); if (pre) { substituteClassname(pt, pre); Replaceall(pre, "$csinput", arg); if (Len(pre_code) > 0) Printf(pre_code, "\n"); Printv(pre_code, pre, NIL); } String *post = Getattr(p, "tmap:csin:post"); if (post) { substituteClassname(pt, post); Replaceall(post, "$csinput", arg); if (Len(post_code) > 0) Printf(post_code, "\n"); Printv(post_code, post, NIL); } String *terminator = Getattr(p, "tmap:csin:terminator"); if (terminator) { substituteClassname(pt, terminator); Replaceall(terminator, "$csinput", arg); if (Len(terminator_code) > 0) Insert(terminator_code, 0, "\n"); Insert(terminator_code, 0, terminator); } Printv(imcall, tm, NIL); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSIN_UNDEF, input_file, line_number, "No csin typemap defined for %s\n", SwigType_str(pt, 0)); } /* Add parameter to module class function */ if (gencomma >= 2) Printf(function_code, ", "); gencomma = 2; Printf(function_code, "%s %s", param_type, arg); p = Getattr(p, "tmap:in:next"); Delete(arg); Delete(param_type); } Printf(imcall, ")"); Printf(function_code, ")"); // Transform return type used in PInvoke function (in intermediary class) to type used in C# wrapper function (in module class) if ((tm = Swig_typemap_lookup("csout", n, "", 0))) { excodeSubstitute(n, tm, "csout", n); bool is_pre_code = Len(pre_code) > 0; bool is_post_code = Len(post_code) > 0; bool is_terminator_code = Len(terminator_code) > 0; if (is_pre_code || is_post_code || is_terminator_code) { Replaceall(tm, "\n ", "\n "); // add extra indentation to code in typemap if (is_post_code) { Insert(tm, 0, "\n try "); Printv(tm, " finally {\n", post_code, "\n }", NIL); } else { Insert(tm, 0, "\n "); } if (is_pre_code) { Insert(tm, 0, pre_code); Insert(tm, 0, "\n"); } if (is_terminator_code) { Printv(tm, "\n", terminator_code, NIL); } Insert(tm, 0, "{"); Printf(tm, "\n }"); } if (GetFlag(n, "feature:new")) Replaceall(tm, "$owner", "true"); else Replaceall(tm, "$owner", "false"); substituteClassname(t, tm); Replaceall(tm, "$imcall", imcall); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSOUT_UNDEF, input_file, line_number, "No csout typemap defined for %s\n", SwigType_str(t, 0)); } if (proxy_flag && global_variable_flag) { // Properties if (generate_property_declaration_flag) { // Ensure the declaration is generated just once should the property contain both a set and get // Get the C# variable type - obtained differently depending on whether a setter is required. String *variable_type = return_type; if (setter_flag) { p = last_parm; // (last parameter is the only parameter for properties) SwigType *pt = Getattr(p, "type"); if ((tm = Getattr(p, "tmap:cstype"))) { substituteClassname(pt, tm); String *cstypeout = Getattr(p, "tmap:cstype:out"); // the type in the cstype typemap's out attribute overrides the type in the typemap variable_type = cstypeout ? cstypeout : tm; } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSOUT_UNDEF, input_file, line_number, "No csvarin typemap defined for %s\n", SwigType_str(pt, 0)); } } const String *csattributes = Getattr(n, "feature:cs:attributes"); if (csattributes) Printf(module_class_code, " %s\n", csattributes); const String *methodmods = Getattr(n, "feature:cs:methodmodifiers"); if (!methodmods) methodmods = (is_public(n) ? public_string : protected_string); Printf(module_class_code, " %s static %s %s {", methodmods, variable_type, variable_name); } generate_property_declaration_flag = false; if (setter_flag) { // Setter method p = last_parm; // (last parameter is the only parameter for properties) SwigType *pt = Getattr(p, "type"); if ((tm = Getattr(p, "tmap:csvarin"))) { substituteClassname(pt, tm); Replaceall(tm, "$csinput", "value"); Replaceall(tm, "$imcall", imcall); excodeSubstitute(n, tm, "csvarin", p); Printf(module_class_code, "%s", tm); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSOUT_UNDEF, input_file, line_number, "No csvarin typemap defined for %s\n", SwigType_str(pt, 0)); } } else { // Getter method if ((tm = Swig_typemap_lookup("csvarout", n, "", 0))) { if (GetFlag(n, "feature:new")) Replaceall(tm, "$owner", "true"); else Replaceall(tm, "$owner", "false"); substituteClassname(t, tm); Replaceall(tm, "$imcall", imcall); excodeSubstitute(n, tm, "csvarout", n); Printf(module_class_code, "%s", tm); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSOUT_UNDEF, input_file, line_number, "No csvarout typemap defined for %s\n", SwigType_str(t, 0)); } } } else { // Normal function call Printf(function_code, " %s\n\n", tm ? (const String *) tm : empty_string); Printv(module_class_code, function_code, NIL); } Delete(pre_code); Delete(post_code); Delete(terminator_code); Delete(function_code); Delete(return_type); Delete(imcall); Delete(func_name); } /*---------------------------------------------------------------------- * replaceSpecialVariables() *--------------------------------------------------------------------*/ virtual void replaceSpecialVariables(String *method, String *tm, Parm *parm) { (void)method; SwigType *type = Getattr(parm, "type"); substituteClassname(type, tm); } /*---------------------------------------------------------------------- * decodeEnumFeature() * Decode the possible enum features, which are one of: * %csenum(simple) * %csenum(typeunsafe) - default * %csenum(typesafe) * %csenum(proper) *--------------------------------------------------------------------*/ EnumFeature decodeEnumFeature(Node *n) { EnumFeature enum_feature = TypeunsafeEnum; String *feature = Getattr(n, "feature:cs:enum"); if (feature) { if (Cmp(feature, "simple") == 0) enum_feature = SimpleEnum; else if (Cmp(feature, "typesafe") == 0) enum_feature = TypesafeEnum; else if (Cmp(feature, "proper") == 0) enum_feature = ProperEnum; } return enum_feature; } /* ----------------------------------------------------------------------- * enumValue() * This method will return a string with an enum value to use in C# generated * code. If the %csconst feature is not used, the string will contain the intermediary * class call to obtain the enum value. The intermediary class and PINVOKE methods to obtain * the enum value will be generated. Otherwise the C/C++ enum value will be used if there * is one and hopefully it will compile as C# code - e.g. 20 as in: enum E{e=20}; * The %csconstvalue feature overrides all other ways to generate the constant value. * The caller must delete memory allocated for the returned string. * ------------------------------------------------------------------------ */ String *enumValue(Node *n) { String *symname = Getattr(n, "sym:name"); // Check for the %csconstvalue feature String *value = Getattr(n, "feature:cs:constvalue"); if (!value) { // The %csconst feature determines how the constant value is obtained int const_feature_flag = GetFlag(n, "feature:cs:const"); if (const_feature_flag) { // Use the C syntax to make a true C# constant and hope that it compiles as C# code value = Getattr(n, "enumvalue") ? Copy(Getattr(n, "enumvalue")) : Copy(Getattr(n, "enumvalueex")); } else { // Get the enumvalue from a PINVOKE call if (!getCurrentClass() || !cparse_cplusplus || !proxy_flag) { // Strange hack to change the name Setattr(n, "name", Getattr(n, "value")); /* for wrapping of enums in a namespace when emit_action is used */ constantWrapper(n); value = NewStringf("%s.%s()", full_imclass_name ? full_imclass_name : imclass_name, Swig_name_get(getNSpace(), symname)); } else { memberconstantHandler(n); value = NewStringf("%s.%s()", full_imclass_name ? full_imclass_name : imclass_name, Swig_name_get(getNSpace(), Swig_name_member(0, proxy_class_name, symname))); } } } return value; } /* ----------------------------------------------------------------------------- * getEnumName() * ----------------------------------------------------------------------------- */ String *getEnumName(SwigType *t) { Node *enumname = NULL; Node *n = enumLookup(t); if (n) { enumname = Getattr(n, "enumname"); if (!enumname) { String *symname = Getattr(n, "sym:name"); if (symname) { // Add in class scope when referencing enum if not a global enum String *scopename_prefix = Swig_scopename_prefix(Getattr(n, "name")); String *proxyname = 0; if (scopename_prefix) { proxyname = getProxyName(scopename_prefix); } if (proxyname) { enumname = NewStringf("%s.%s", proxyname, symname); } else { // global enum or enum in a namespace String *nspace = Getattr(n, "sym:nspace"); if (nspace) { if (namespce) enumname = NewStringf("%s.%s.%s", namespce, nspace, symname); else enumname = NewStringf("%s.%s", nspace, symname); } else { enumname = Copy(symname); } } Setattr(n, "enumname", enumname); Delete(enumname); Delete(scopename_prefix); } } } return enumname; } /* ----------------------------------------------------------------------------- * substituteClassname() * * Substitute the special variable $csclassname with the proxy class name for classes/structs/unions * that SWIG knows about. Also substitutes enums with enum name. * Otherwise use the $descriptor name for the C# class name. Note that the $&csclassname substitution * is the same as a $&descriptor substitution, ie one pointer added to descriptor name. * Inputs: * pt - parameter type * tm - typemap contents that might contain the special variable to be replaced * Outputs: * tm - typemap contents complete with the special variable substitution * Return: * substitution_performed - flag indicating if a substitution was performed * ----------------------------------------------------------------------------- */ bool substituteClassname(SwigType *pt, String *tm) { bool substitution_performed = false; SwigType *type = Copy(SwigType_typedef_resolve_all(pt)); SwigType *strippedtype = SwigType_strip_qualifiers(type); if (Strstr(tm, "$csclassname")) { SwigType *classnametype = Copy(strippedtype); substituteClassnameSpecialVariable(classnametype, tm, "$csclassname"); substitution_performed = true; Delete(classnametype); } if (Strstr(tm, "$*csclassname")) { SwigType *classnametype = Copy(strippedtype); Delete(SwigType_pop(classnametype)); if (Len(classnametype) > 0) { substituteClassnameSpecialVariable(classnametype, tm, "$*csclassname"); substitution_performed = true; } Delete(classnametype); } if (Strstr(tm, "$&csclassname")) { SwigType *classnametype = Copy(strippedtype); SwigType_add_pointer(classnametype); substituteClassnameSpecialVariable(classnametype, tm, "$&csclassname"); substitution_performed = true; Delete(classnametype); } Delete(strippedtype); Delete(type); return substitution_performed; } /* ----------------------------------------------------------------------------- * substituteClassnameSpecialVariable() * ----------------------------------------------------------------------------- */ void substituteClassnameSpecialVariable(SwigType *classnametype, String *tm, const char *classnamespecialvariable) { if (SwigType_isenum(classnametype)) { String *enumname = getEnumName(classnametype); if (enumname) Replaceall(tm, classnamespecialvariable, enumname); else Replaceall(tm, classnamespecialvariable, NewStringf("int")); } else { String *classname = getProxyName(classnametype); if (classname) { Replaceall(tm, classnamespecialvariable, classname); // getProxyName() works for pointers to classes too } else { // use $descriptor if SWIG does not know anything about this type. Note that any typedefs are resolved. String *descriptor = NewStringf("SWIGTYPE%s", SwigType_manglestr(classnametype)); Replaceall(tm, classnamespecialvariable, descriptor); // Add to hash table so that the type wrapper classes can be created later Setattr(swig_types_hash, descriptor, classnametype); Delete(descriptor); } } } /* ----------------------------------------------------------------------------- * makeParameterName() * * Inputs: * n - Node * p - parameter node * arg_num - parameter argument number * setter - set this flag when wrapping variables * Return: * arg - a unique parameter name * ----------------------------------------------------------------------------- */ String *makeParameterName(Node *n, Parm *p, int arg_num, bool setter) { String *arg = 0; String *pn = Getattr(p, "name"); // Use C parameter name unless it is a duplicate or an empty parameter name int count = 0; ParmList *plist = Getattr(n, "parms"); while (plist) { if ((Cmp(pn, Getattr(plist, "name")) == 0)) count++; plist = nextSibling(plist); } String *wrn = pn ? Swig_name_warning(p, 0, pn, 0) : 0; arg = (!pn || (count > 1) || wrn) ? NewStringf("arg%d", arg_num) : Copy(pn); if (setter && Cmp(arg, "self") != 0) { // Note that in C# properties, the input variable name is always called 'value' Delete(arg); arg = NewString("value"); } return arg; } /* ----------------------------------------------------------------------------- * emitTypeWrapperClass() * ----------------------------------------------------------------------------- */ void emitTypeWrapperClass(String *classname, SwigType *type) { Node *n = NewHash(); Setfile(n, input_file); Setline(n, line_number); String *swigtype = NewString(""); String *filen = NewStringf("%s%s.cs", SWIG_output_directory(), classname); File *f_swigtype = NewFile(filen, "w", SWIG_output_files()); if (!f_swigtype) { FileErrorDisplay(filen); SWIG_exit(EXIT_FAILURE); } Append(filenames_list, Copy(filen)); Delete(filen); filen = NULL; // Start writing out the type wrapper class file emitBanner(f_swigtype); addOpenNamespace(0, f_swigtype); // Pure C# baseclass and interfaces const String *pure_baseclass = typemapLookup(n, "csbase", type, WARN_NONE); const String *pure_interfaces = typemapLookup(n, "csinterfaces", type, WARN_NONE); // Emit the class Printv(swigtype, typemapLookup(n, "csimports", type, WARN_NONE), // Import statements "\n", NIL); // Class attributes const String *csattributes = typemapLookup(n, "csattributes", type, WARN_NONE); if (csattributes && *Char(csattributes)) Printf(swigtype, "%s\n", csattributes); Printv(swigtype, typemapLookup(n, "csclassmodifiers", type, WARN_CSHARP_TYPEMAP_CLASSMOD_UNDEF), // Class modifiers " $csclassname", // Class name and base class (*Char(pure_baseclass) || *Char(pure_interfaces)) ? " : " : "", pure_baseclass, ((*Char(pure_baseclass)) && *Char(pure_interfaces)) ? // Interfaces ", " : "", pure_interfaces, " {", typemapLookup(n, "csbody", type, WARN_CSHARP_TYPEMAP_CSBODY_UNDEF), // main body of class typemapLookup(n, "cscode", type, WARN_NONE), // extra C# code "}\n", NIL); Replaceall(swigtype, "$csclassname", classname); Replaceall(swigtype, "$module", module_class_name); Replaceall(swigtype, "$imclassname", imclass_name); Replaceall(swigtype, "$dllimport", dllimport); Printv(f_swigtype, swigtype, NIL); addCloseNamespace(0, f_swigtype); Close(f_swigtype); Delete(swigtype); Delete(n); } /* ----------------------------------------------------------------------------- * typemapLookup() * n - for input only and must contain info for Getfile(n) and Getline(n) to work * tmap_method - typemap method name * type - typemap type to lookup * warning - warning number to issue if no typemaps found * typemap_attributes - the typemap attributes are attached to this node and will * also be used for temporary storage if non null * return is never NULL, unlike Swig_typemap_lookup() * ----------------------------------------------------------------------------- */ const String *typemapLookup(Node *n, const_String_or_char_ptr tmap_method, SwigType *type, int warning, Node *typemap_attributes = 0) { Node *node = !typemap_attributes ? NewHash() : typemap_attributes; Setattr(node, "type", type); Setfile(node, Getfile(n)); Setline(node, Getline(n)); const String *tm = Swig_typemap_lookup(tmap_method, node, "", 0); if (!tm) { tm = empty_string; if (warning != WARN_NONE) Swig_warning(warning, Getfile(n), Getline(n), "No %s typemap defined for %s\n", tmap_method, SwigType_str(type, 0)); } if (!typemap_attributes) Delete(node); return tm; } /* ----------------------------------------------------------------------------- * canThrow() * Determine whether the code in the typemap can throw a C# exception. * If so, note it for later when excodeSubstitute() is called. * ----------------------------------------------------------------------------- */ void canThrow(Node *n, const String *typemap, Node *parameter) { String *canthrow_attribute = NewStringf("tmap:%s:canthrow", typemap); String *canthrow = Getattr(parameter, canthrow_attribute); if (canthrow) Setattr(n, "csharp:canthrow", "1"); Delete(canthrow_attribute); } /* ----------------------------------------------------------------------------- * excodeSubstitute() * If a method can throw a C# exception, additional exception code is added to * check for the pending exception so that it can then throw the exception. The * $excode special variable is replaced by the exception code in the excode * typemap attribute. * ----------------------------------------------------------------------------- */ void excodeSubstitute(Node *n, String *code, const String *typemap, Node *parameter) { String *excode_attribute = NewStringf("tmap:%s:excode", typemap); String *excode = Getattr(parameter, excode_attribute); if (Getattr(n, "csharp:canthrow")) { int count = Replaceall(code, "$excode", excode); if (count < 1 || !excode) { Swig_warning(WARN_CSHARP_EXCODE, input_file, line_number, "C# exception may not be thrown - no $excode or excode attribute in '%s' typemap.\n", typemap); } } else { Replaceall(code, "$excode", empty_string); } Delete(excode_attribute); } /* ----------------------------------------------------------------------------- * addOpenNamespace() * ----------------------------------------------------------------------------- */ void addOpenNamespace(const String *nspace, File *file) { if (namespce || nspace) { Printf(file, "namespace "); if (namespce) Printv(file, namespce, nspace ? "." : "", NIL); if (nspace) Printv(file, nspace, NIL); Printf(file, " {\n"); } } /* ----------------------------------------------------------------------------- * addCloseNamespace() * ----------------------------------------------------------------------------- */ void addCloseNamespace(const String *nspace, File *file) { if (namespce || nspace) Printf(file, "\n}\n"); } /* ----------------------------------------------------------------------------- * outputDirectory() * * Return the directory to use for generating Java classes/enums and create the * subdirectory (does not create if language specific outdir does not exist). * ----------------------------------------------------------------------------- */ String *outputDirectory(String *nspace) { String *output_directory = Copy(SWIG_output_directory()); if (nspace) { String *nspace_subdirectory = Copy(nspace); Replaceall(nspace_subdirectory, ".", SWIG_FILE_DELIMITER); String *newdir_error = Swig_new_subdirectory(output_directory, nspace_subdirectory); if (newdir_error) { Printf(stderr, "%s\n", newdir_error); Delete(newdir_error); SWIG_exit(EXIT_FAILURE); } Printv(output_directory, nspace_subdirectory, SWIG_FILE_DELIMITER, 0); Delete(nspace_subdirectory); } return output_directory; } /*---------------------------------------------------------------------- * Start of director methods *--------------------------------------------------------------------*/ #if 0 /*---------------------------------------------------------------------- * emitDirectorUpcalls() *--------------------------------------------------------------------*/ void emitDirectorUpcalls() { if (n_dmethods) { Wrapper *w = NewWrapper(); String *dmethod_data = NewString(""); int n_methods = 0; Iterator udata_iter; udata_iter = First(dmethods_seq); while (udata_iter.item) { UpcallData *udata = udata_iter.item; Printf(dmethod_data, " { \"%s\", \"%s\" }", Getattr(udata, "imclass_method"), Getattr(udata, "imclass_fdesc")); ++n_methods; udata_iter = Next(udata_iter); if (udata_iter.item) Putc(',', dmethod_data); Putc('\n', dmethod_data); } Wrapper_print(w, f_wrappers); Delete(dmethod_data); Delete(swig_module_init); DelWrapper(w); } } #endif /*---------------------------------------------------------------------- * emitDirectorExtraMethods() * * This is where the director connect method is generated. *--------------------------------------------------------------------*/ void emitDirectorExtraMethods(Node *n) { if (!Swig_directorclass(n)) return; // Output the director connect method: String *norm_name = SwigType_namestr(Getattr(n, "name")); String *swig_director_connect = Swig_name_member(getNSpace(), proxy_class_name, "director_connect"); String *wname = Swig_name_wrapper(swig_director_connect); String *sym_name = Getattr(n, "sym:name"); Wrapper *code_wrap; Printv(imclass_class_code, "\n [DllImport(\"", dllimport, "\", EntryPoint=\"", wname, "\")]\n", NIL); Printf(imclass_class_code, " public static extern void %s(HandleRef jarg1", swig_director_connect); code_wrap = NewWrapper(); Printf(code_wrap->def, "SWIGEXPORT void SWIGSTDCALL %s(void *objarg", wname); Printf(code_wrap->code, " %s *obj = (%s *)objarg;\n", norm_name, norm_name); Printf(code_wrap->code, " SwigDirector_%s *director = dynamic_cast(obj);\n", sym_name, sym_name); // TODO: if statement not needed?? - Java too Printf(code_wrap->code, " if (director) {\n"); Printf(code_wrap->code, " director->swig_connect_director("); for (int i = first_class_dmethod; i < curr_class_dmethod; ++i) { UpcallData *udata = Getitem(dmethods_seq, i); String *methid = Getattr(udata, "class_methodidx"); Printf(code_wrap->def, ", "); if (i != first_class_dmethod) Printf(code_wrap->code, ", "); Printf(code_wrap->def, "SwigDirector_%s::SWIG_Callback%s_t callback%s", sym_name, methid, methid); Printf(code_wrap->code, "callback%s", methid); Printf(imclass_class_code, ", %s.SwigDelegate%s_%s delegate%s", sym_name, sym_name, methid, methid); } Printf(code_wrap->def, ") {\n"); Printf(code_wrap->code, ");\n"); Printf(imclass_class_code, ");\n"); Printf(code_wrap->code, " }\n"); Printf(code_wrap->code, "}\n"); Wrapper_print(code_wrap, f_wrappers); DelWrapper(code_wrap); Delete(wname); Delete(swig_director_connect); } /* --------------------------------------------------------------- * classDirectorMethod() * * Emit a virtual director method to pass a method call on to the * underlying Java object. * * --------------------------------------------------------------- */ int classDirectorMethod(Node *n, Node *parent, String *super) { String *empty_str = NewString(""); String *classname = Getattr(parent, "sym:name"); String *c_classname = Getattr(parent, "name"); String *name = Getattr(n, "name"); String *symname = Getattr(n, "sym:name"); SwigType *type = Getattr(n, "type"); SwigType *returntype = Getattr(n, "returntype"); String *overloaded_name = getOverloadedName(n); String *storage = Getattr(n, "storage"); String *value = Getattr(n, "value"); String *decl = Getattr(n, "decl"); String *declaration = NewString(""); String *tm; Parm *p; int i; Wrapper *w = NewWrapper(); ParmList *l = Getattr(n, "parms"); bool is_void = !(Cmp(returntype, "void")); String *qualified_return = NewString(""); bool pure_virtual = (!(Cmp(storage, "virtual")) && !(Cmp(value, "0"))); int status = SWIG_OK; bool output_director = true; String *dirclassname = directorClassName(parent); String *qualified_name = NewStringf("%s::%s", dirclassname, name); SwigType *c_ret_type = NULL; String *jupcall_args = NewString(""); String *imclass_dmethod; String *callback_typedef_parms = NewString(""); String *delegate_parms = NewString(""); String *proxy_method_types = NewString(""); String *callback_def = NewString(""); String *callback_code = NewString(""); String *imcall_args = NewString(""); bool ignored_method = GetFlag(n, "feature:ignore") ? true : false; // Kludge Alert: functionWrapper sets sym:overload properly, but it // isn't at this point, so we have to manufacture it ourselves. At least // we're consistent with the sym:overload name in functionWrapper. (?? when // does the overloaded method name get set?) imclass_dmethod = NewStringf("SwigDirector_%s", Swig_name_member(getNSpace(), classname, overloaded_name)); if (returntype) { qualified_return = SwigType_rcaststr(returntype, "c_result"); if (!is_void && !ignored_method) { if (!SwigType_isclass(returntype)) { if (!(SwigType_ispointer(returntype) || SwigType_isreference(returntype))) { String *construct_result = NewStringf("= SwigValueInit< %s >()", SwigType_lstr(returntype, 0)); Wrapper_add_localv(w, "c_result", SwigType_lstr(returntype, "c_result"), construct_result, NIL); Delete(construct_result); } else { String *base_typename = SwigType_base(returntype); String *resolved_typename = SwigType_typedef_resolve_all(base_typename); Symtab *symtab = Getattr(n, "sym:symtab"); Node *typenode = Swig_symbol_clookup(resolved_typename, symtab); if (SwigType_ispointer(returntype) || (typenode && Getattr(typenode, "abstract"))) { /* initialize pointers to something sane. Same for abstract classes when a reference is returned. */ Wrapper_add_localv(w, "c_result", SwigType_lstr(returntype, "c_result"), "= 0", NIL); } else { /* If returning a reference, initialize the pointer to a sane default - if a C# exception occurs, then the pointer returns something other than a NULL-initialized reference. */ String *non_ref_type = Copy(returntype); /* Remove reference and const qualifiers */ Replaceall(non_ref_type, "r.", ""); Replaceall(non_ref_type, "q(const).", ""); Wrapper_add_localv(w, "result_default", "static", SwigType_str(non_ref_type, "result_default"), "=", SwigType_str(non_ref_type, "()"), NIL); Wrapper_add_localv(w, "c_result", SwigType_lstr(returntype, "c_result"), "= &result_default", NIL); Delete(non_ref_type); } Delete(base_typename); Delete(resolved_typename); } } else { SwigType *vt; vt = cplus_value_type(returntype); if (!vt) { Wrapper_add_localv(w, "c_result", SwigType_lstr(returntype, "c_result"), NIL); } else { Wrapper_add_localv(w, "c_result", SwigType_lstr(vt, "c_result"), NIL); Delete(vt); } } } /* Create the intermediate class wrapper */ Parm *tp = NewParm(returntype, empty_str, n); tm = Swig_typemap_lookup("imtype", tp, "", 0); if (tm) { String *imtypeout = Getattr(tp, "tmap:imtype:out"); // the type in the imtype typemap's out attribute overrides the type in the typemap if (imtypeout) tm = imtypeout; const String *im_directoroutattributes = Getattr(tp, "tmap:imtype:directoroutattributes"); if (im_directoroutattributes) { Printf(callback_def, " %s\n", im_directoroutattributes); Printf(director_delegate_definitions, " %s\n", im_directoroutattributes); } Printf(callback_def, " private %s SwigDirector%s(", tm, overloaded_name); if (!ignored_method) Printf(director_delegate_definitions, " public delegate %s", tm); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSTYPE_UNDEF, input_file, line_number, "No imtype typemap defined for %s\n", SwigType_str(returntype, 0)); } Parm *retpm = NewParm(returntype, empty_str, n); if ((c_ret_type = Swig_typemap_lookup("ctype", retpm, "", 0))) { if (!is_void && !ignored_method) { String *jretval_decl = NewStringf("%s jresult", c_ret_type); Wrapper_add_localv(w, "jresult", jretval_decl, "= 0", NIL); Delete(jretval_decl); } } else { Swig_warning(WARN_CSHARP_TYPEMAP_CTYPE_UNDEF, input_file, line_number, "No ctype typemap defined for %s for use in %s::%s (skipping director method)\n", SwigType_str(returntype, 0), SwigType_namestr(c_classname), SwigType_namestr(name)); output_director = false; } Delete(retpm); } /* Go through argument list, attach lnames for arguments */ for (i = 0, p = l; p; p = nextSibling(p), ++i) { String *arg = Getattr(p, "name"); String *lname = NewString(""); if (!arg && Cmp(Getattr(p, "type"), "void")) { lname = NewStringf("arg%d", i); Setattr(p, "name", lname); } else lname = arg; Setattr(p, "lname", lname); } /* Attach the standard typemaps */ Swig_typemap_attach_parms("out", l, 0); Swig_typemap_attach_parms("ctype", l, 0); Swig_typemap_attach_parms("imtype", l, 0); Swig_typemap_attach_parms("cstype", l, 0); Swig_typemap_attach_parms("directorin", l, 0); Swig_typemap_attach_parms("csdirectorin", l, 0); /* Preamble code */ if (!ignored_method) Printf(w->code, "if (!swig_callback%s) {\n", overloaded_name); if (!pure_virtual) { String *super_call = Swig_method_call(super, l); if (is_void) { Printf(w->code, "%s;\n", super_call); if (!ignored_method) Printf(w->code, "return;\n"); } else { Printf(w->code, "return %s;\n", super_call); } Delete(super_call); } else { Printf(w->code, " throw Swig::DirectorPureVirtualException(\"%s::%s\");\n", SwigType_namestr(c_classname), SwigType_namestr(name)); } if (!ignored_method) Printf(w->code, "} else {\n"); /* Go through argument list, convert from native to Java */ for (i = 0, p = l; p; ++i) { /* Is this superfluous? */ while (checkAttribute(p, "tmap:directorin:numinputs", "0")) { p = Getattr(p, "tmap:directorin:next"); } SwigType *pt = Getattr(p, "type"); String *ln = makeParameterName(n, p, i, false); String *c_param_type = NULL; String *c_decl = NewString(""); String *arg = NewString(""); Printf(arg, "j%s", ln); /* And add to the upcall args */ if (i > 0) Printf(jupcall_args, ", "); Printf(jupcall_args, "%s", arg); /* Get parameter's intermediary C type */ if ((c_param_type = Getattr(p, "tmap:ctype"))) { String *ctypeout = Getattr(p, "tmap:ctype:out"); // the type in the ctype typemap's out attribute overrides the type in the typemap if (ctypeout) c_param_type = ctypeout; /* Add to local variables */ Printf(c_decl, "%s %s", c_param_type, arg); if (!ignored_method) Wrapper_add_localv(w, arg, c_decl, (!(SwigType_ispointer(pt) || SwigType_isreference(pt)) ? "" : "= 0"), NIL); /* Add input marshalling code */ if ((tm = Getattr(p, "tmap:directorin"))) { Replaceall(tm, "$input", arg); Replaceall(tm, "$owner", "0"); if (Len(tm)) if (!ignored_method) Printf(w->code, "%s\n", tm); Delete(tm); /* Add C type to callback typedef */ if (i > 0) Printf(callback_typedef_parms, ", "); Printf(callback_typedef_parms, "%s", c_param_type); /* Add parameter to the intermediate class code if generating the * intermediate's upcall code */ if ((tm = Getattr(p, "tmap:imtype"))) { String *imtypeout = Getattr(p, "tmap:imtype:out"); // the type in the imtype typemap's out attribute overrides the type in the typemap if (imtypeout) tm = imtypeout; const String *im_directorinattributes = Getattr(p, "tmap:imtype:directorinattributes"); String *din = Copy(Getattr(p, "tmap:csdirectorin")); if (din) { Replaceall(din, "$module", module_class_name); Replaceall(din, "$imclassname", imclass_name); substituteClassname(pt, din); Replaceall(din, "$iminput", ln); if (i > 0) { Printf(delegate_parms, ", "); Printf(proxy_method_types, ", "); Printf(imcall_args, ", "); } Printf(delegate_parms, "%s%s %s", im_directorinattributes ? im_directorinattributes : empty_string, tm, ln); if (Cmp(din, ln)) { Printv(imcall_args, din, NIL); } else Printv(imcall_args, ln, NIL); /* Get the C# parameter type */ if ((tm = Getattr(p, "tmap:cstype"))) { substituteClassname(pt, tm); Printf(proxy_method_types, "typeof(%s)", tm); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSWTYPE_UNDEF, input_file, line_number, "No cstype typemap defined for %s\n", SwigType_str(pt, 0)); } } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSDIRECTORIN_UNDEF, input_file, line_number, "No csdirectorin typemap defined for %s for use in %s::%s (skipping director method)\n", SwigType_str(pt, 0), SwigType_namestr(c_classname), SwigType_namestr(name)); output_director = false; } } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSTYPE_UNDEF, input_file, line_number, "No imtype typemap defined for %s for use in %s::%s (skipping director method)\n", SwigType_str(pt, 0), SwigType_namestr(c_classname), SwigType_namestr(name)); output_director = false; } p = Getattr(p, "tmap:directorin:next"); } else { Swig_warning(WARN_CSHARP_TYPEMAP_CSDIRECTORIN_UNDEF, input_file, line_number, "No or improper directorin typemap defined for argument %s for use in %s::%s (skipping director method)\n", SwigType_str(pt, 0), SwigType_namestr(c_classname), SwigType_namestr(name)); p = nextSibling(p); output_director = false; } } else { Swig_warning(WARN_CSHARP_TYPEMAP_CTYPE_UNDEF, input_file, line_number, "No ctype typemap defined for %s for use in %s::%s (skipping director method)\n", SwigType_str(pt, 0), SwigType_namestr(c_classname), SwigType_namestr(name)); output_director = false; p = nextSibling(p); } Delete(ln); Delete(arg); Delete(c_decl); Delete(c_param_type); } /* header declaration, start wrapper definition */ String *target; SwigType *rtype = Getattr(n, "conversion_operator") ? 0 : type; target = Swig_method_decl(rtype, decl, qualified_name, l, 0, 0); Printf(w->def, "%s", target); Delete(qualified_name); Delete(target); target = Swig_method_decl(rtype, decl, name, l, 0, 1); Printf(declaration, " virtual %s", target); Delete(target); // Add any exception specifications to the methods in the director class ParmList *throw_parm_list = NULL; if ((throw_parm_list = Getattr(n, "throws")) || Getattr(n, "throw")) { int gencomma = 0; Append(w->def, " throw("); Append(declaration, " throw("); if (throw_parm_list) Swig_typemap_attach_parms("throws", throw_parm_list, 0); for (p = throw_parm_list; p; p = nextSibling(p)) { if ((tm = Getattr(p, "tmap:throws"))) { if (gencomma++) { Append(w->def, ", "); Append(declaration, ", "); } Printf(w->def, "%s", SwigType_str(Getattr(p, "type"), 0)); Printf(declaration, "%s", SwigType_str(Getattr(p, "type"), 0)); } } Append(w->def, ")"); Append(declaration, ")"); } Append(w->def, " {"); Append(declaration, ";\n"); /* Finish off the inherited upcall's definition */ Printf(callback_def, "%s)", delegate_parms); Printf(callback_def, " {\n"); /* Emit the intermediate class's upcall to the actual class */ String *upcall = NewStringf("%s(%s)", symname, imcall_args); if (!is_void) { Parm *tp = NewParm(returntype, empty_str, n); if ((tm = Swig_typemap_lookup("csdirectorout", tp, "", 0))) { substituteClassname(returntype, tm); Replaceall(tm, "$cscall", upcall); Printf(callback_code, " return %s;\n", tm); } Delete(tm); Delete(tp); } else Printf(callback_code, " %s;\n", upcall); Printf(callback_code, " }\n"); Delete(upcall); if (!ignored_method) { if (!is_void) Printf(w->code, "jresult = (%s) ", c_ret_type); Printf(w->code, "swig_callback%s(%s);\n", overloaded_name, jupcall_args); if (!is_void) { String *jresult_str = NewString("jresult"); String *result_str = NewString("c_result"); Parm *tp = NewParm(returntype, result_str, n); /* Copy jresult into c_result... */ if ((tm = Swig_typemap_lookup("directorout", tp, result_str, w))) { Replaceall(tm, "$input", jresult_str); Replaceall(tm, "$result", result_str); Printf(w->code, "%s\n", tm); } else { Swig_warning(WARN_TYPEMAP_DIRECTOROUT_UNDEF, input_file, line_number, "Unable to use return type %s used in %s::%s (skipping director method)\n", SwigType_str(returntype, 0), SwigType_namestr(c_classname), SwigType_namestr(name)); output_director = false; } Delete(tp); Delete(jresult_str); Delete(result_str); } /* Terminate wrapper code */ Printf(w->code, "}\n"); if (!is_void) Printf(w->code, "return %s;", qualified_return); } Printf(w->code, "}"); // We expose virtual protected methods via an extra public inline method which makes a straight call to the wrapped class' method String *inline_extra_method = NewString(""); if (dirprot_mode() && !is_public(n) && !pure_virtual) { Printv(inline_extra_method, declaration, NIL); String *extra_method_name = NewStringf("%sSwigPublic", name); Replaceall(inline_extra_method, name, extra_method_name); Replaceall(inline_extra_method, ";\n", " {\n "); if (!is_void) Printf(inline_extra_method, "return "); String *methodcall = Swig_method_call(super, l); Printv(inline_extra_method, methodcall, ";\n }\n", NIL); Delete(methodcall); Delete(extra_method_name); } /* emit code */ if (status == SWIG_OK && output_director) { if (!is_void) { Replaceall(w->code, "$null", qualified_return); } else { Replaceall(w->code, "$null", ""); } if (!ignored_method) Printv(director_delegate_callback, "\n", callback_def, callback_code, NIL); if (!Getattr(n, "defaultargs")) { Wrapper_print(w, f_directors); Printv(f_directors_h, declaration, NIL); Printv(f_directors_h, inline_extra_method, NIL); } } if (!ignored_method) { /* Emit the actual upcall through */ UpcallData *udata = addUpcallMethod(imclass_dmethod, symname, decl, overloaded_name); String *methid = Getattr(udata, "class_methodidx"); Setattr(n, "upcalldata", udata); /* Printf(stdout, "setting upcalldata, nodeType: %s %s::%s %p\n", nodeType(n), classname, Getattr(n, "name"), n); */ Printf(director_callback_typedefs, " typedef %s (SWIGSTDCALL* SWIG_Callback%s_t)(", c_ret_type, methid); Printf(director_callback_typedefs, "%s);\n", callback_typedef_parms); Printf(director_callbacks, " SWIG_Callback%s_t swig_callback%s;\n", methid, overloaded_name); Printf(director_delegate_definitions, " SwigDelegate%s_%s(%s);\n", classname, methid, delegate_parms); Printf(director_delegate_instances, " private SwigDelegate%s_%s swigDelegate%s;\n", classname, methid, methid); Printf(director_method_types, " private static Type[] swigMethodTypes%s = new Type[] { %s };\n", methid, proxy_method_types); Printf(director_connect_parms, "SwigDirector%s%s delegate%s", classname, methid, methid); } Delete(qualified_return); Delete(c_ret_type); Delete(declaration); Delete(callback_typedef_parms); Delete(delegate_parms); Delete(proxy_method_types); Delete(callback_def); Delete(callback_code); DelWrapper(w); return status; } /* ------------------------------------------------------------ * classDirectorConstructor() * ------------------------------------------------------------ */ int classDirectorConstructor(Node *n) { Node *parent = parentNode(n); String *decl = Getattr(n, "decl"); String *supername = Swig_class_name(parent); String *classname = directorClassName(parent); String *sub = NewString(""); Parm *p; ParmList *superparms = Getattr(n, "parms"); ParmList *parms; int argidx = 0; /* Assign arguments to superclass's parameters, if not already done */ for (p = superparms; p; p = nextSibling(p)) { String *pname = Getattr(p, "name"); if (!pname) { pname = NewStringf("arg%d", argidx++); Setattr(p, "name", pname); } } // TODO: Is this copy needed? parms = CopyParmList(superparms); if (!Getattr(n, "defaultargs")) { /* constructor */ { String *basetype = Getattr(parent, "classtype"); String *target = Swig_method_decl(0, decl, classname, parms, 0, 0); String *call = Swig_csuperclass_call(0, basetype, superparms); String *classtype = SwigType_namestr(Getattr(n, "name")); Printf(f_directors, "%s::%s : %s, %s {\n", classname, target, call, Getattr(parent, "director:ctor")); Printf(f_directors, " swig_init_callbacks();\n"); Printf(f_directors, "}\n\n"); Delete(classtype); Delete(target); Delete(call); } /* constructor header */ { String *target = Swig_method_decl(0, decl, classname, parms, 0, 1); Printf(f_directors_h, " %s;\n", target); Delete(target); } } Delete(sub); Delete(supername); Delete(parms); return Language::classDirectorConstructor(n); } /* ------------------------------------------------------------ * classDirectorDefaultConstructor() * ------------------------------------------------------------ */ int classDirectorDefaultConstructor(Node *n) { String *classname = Swig_class_name(n); String *classtype = SwigType_namestr(Getattr(n, "name")); Wrapper *w = NewWrapper(); Printf(w->def, "SwigDirector_%s::SwigDirector_%s() : %s {", classname, classname, Getattr(n, "director:ctor")); Printf(w->code, "}\n"); Wrapper_print(w, f_directors); Printf(f_directors_h, " SwigDirector_%s();\n", classname); DelWrapper(w); Delete(classtype); Delete(classname); return Language::classDirectorDefaultConstructor(n); } /* ------------------------------------------------------------ * classDirectorInit() * ------------------------------------------------------------ */ int classDirectorInit(Node *n) { Delete(none_comparison); none_comparison = NewString(""); // not used Delete(director_ctor_code); director_ctor_code = NewString("$director_new"); Java_director_declaration(n); Printf(f_directors_h, "%s {\n", Getattr(n, "director:decl")); Printf(f_directors_h, "\npublic:\n"); /* Keep track of the director methods for this class */ first_class_dmethod = curr_class_dmethod = n_dmethods; director_callback_typedefs = NewString(""); director_callbacks = NewString(""); director_delegate_callback = NewString(""); director_delegate_definitions = NewString(""); director_delegate_instances = NewString(""); director_method_types = NewString(""); director_connect_parms = NewString(""); return Language::classDirectorInit(n); } /* ---------------------------------------------------------------------- * classDirectorDestructor() * ---------------------------------------------------------------------- */ int classDirectorDestructor(Node *n) { Node *current_class = getCurrentClass(); String *classname = Swig_class_name(current_class); Wrapper *w = NewWrapper(); if (Getattr(n, "throw")) { Printf(f_directors_h, " virtual ~SwigDirector_%s() throw ();\n", classname); Printf(w->def, "SwigDirector_%s::~SwigDirector_%s() throw () {\n", classname, classname); } else { Printf(f_directors_h, " virtual ~SwigDirector_%s();\n", classname); Printf(w->def, "SwigDirector_%s::~SwigDirector_%s() {\n", classname, classname); } Printv(w->code, "}\n", NIL); Wrapper_print(w, f_directors); DelWrapper(w); Delete(classname); return SWIG_OK; } /* ------------------------------------------------------------ * classDirectorEnd() * ------------------------------------------------------------ */ int classDirectorEnd(Node *n) { int i; String *director_classname = directorClassName(n); Wrapper *w = NewWrapper(); if (Len(director_callback_typedefs) > 0) { Printf(f_directors_h, "\n%s", director_callback_typedefs); } Printf(f_directors_h, " void swig_connect_director("); Printf(w->def, "void %s::swig_connect_director(", director_classname); for (i = first_class_dmethod; i < curr_class_dmethod; ++i) { UpcallData *udata = Getitem(dmethods_seq, i); String *methid = Getattr(udata, "class_methodidx"); String *overname = Getattr(udata, "overname"); Printf(f_directors_h, "SWIG_Callback%s_t callback%s", methid, overname); Printf(w->def, "SWIG_Callback%s_t callback%s", methid, overname); Printf(w->code, "swig_callback%s = callback%s;\n", overname, overname); if (i != curr_class_dmethod - 1) { Printf(f_directors_h, ", "); Printf(w->def, ", "); } } Printf(f_directors_h, ");\n"); Printf(w->def, ") {"); if (Len(director_callback_typedefs) > 0) { Printf(f_directors_h, "\nprivate:\n%s", director_callbacks); } Printf(f_directors_h, " void swig_init_callbacks();\n"); Printf(f_directors_h, "};\n\n"); Printf(w->code, "}\n\n"); Printf(w->code, "void %s::swig_init_callbacks() {\n", director_classname); for (i = first_class_dmethod; i < curr_class_dmethod; ++i) { UpcallData *udata = Getitem(dmethods_seq, i); String *overname = Getattr(udata, "overname"); Printf(w->code, "swig_callback%s = 0;\n", overname); } Printf(w->code, "}"); Wrapper_print(w, f_directors); DelWrapper(w); return Language::classDirectorEnd(n); } /* -------------------------------------------------------------------- * classDirectorDisown() * ------------------------------------------------------------------*/ virtual int classDirectorDisown(Node *n) { (void) n; return SWIG_OK; } /*---------------------------------------------------------------------- * extraDirectorProtectedCPPMethodsRequired() *--------------------------------------------------------------------*/ bool extraDirectorProtectedCPPMethodsRequired() const { return false; } /*---------------------------------------------------------------------- * Java_director_declaration() * * Generate the director class's declaration * e.g. "class SwigDirector_myclass : public myclass, public Swig::Director {" *--------------------------------------------------------------------*/ void Java_director_declaration(Node *n) { String *base = Getattr(n, "classtype"); String *class_ctor = NewString("Swig::Director()"); String *classname = Swig_class_name(n); String *directorname = NewStringf("SwigDirector_%s", classname); String *declaration = Swig_class_declaration(n, directorname); Printf(declaration, " : public %s, public Swig::Director", base); // Stash stuff for later. Setattr(n, "director:decl", declaration); Setattr(n, "director:ctor", class_ctor); } }; /* class CSHARP */ /* ----------------------------------------------------------------------------- * swig_csharp() - Instantiate module * ----------------------------------------------------------------------------- */ static Language *new_swig_csharp() { return new CSHARP(); } extern "C" Language *swig_csharp(void) { return new_swig_csharp(); } /* ----------------------------------------------------------------------------- * Static member variables * ----------------------------------------------------------------------------- */ const char *CSHARP::usage = (char *) "\ C# Options (available with -csharp)\n\ -dllimport
- Override DllImport attribute name to
\n\ -namespace - Generate wrappers into C# namespace \n\ -noproxy - Generate the low-level functional interface instead\n\ of proxy classes\n\ -oldvarnames - Old intermediary method names for variable wrappers\n\ \n";