/* ----------------------------------------------------------------------------- * 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. * * php.cxx * * PHP language module for SWIG. * ----------------------------------------------------------------------------- */ #include "swigmod.h" #include #include static const char *usage = "\ PHP Options (available with -php7)\n\ -prefix - Prepend to all class names in PHP wrappers\n\ \n"; // How to wrap non-class functions, variables and constants: // FIXME: Make this specifiable and also allow a real namespace. // Wrap as global PHP names. static bool wrap_nonclass_global = true; // Wrap in a class to fake a namespace (for compatibility with SWIG's behaviour // before PHP added namespaces. static bool wrap_nonclass_fake_class = true; static String *module = 0; static String *cap_module = 0; static String *prefix = 0; static File *f_begin = 0; static File *f_runtime = 0; static File *f_runtime_h = 0; static File *f_h = 0; static File *f_phpcode = 0; static File *f_directors = 0; static File *f_directors_h = 0; static String *s_header; static String *s_wrappers; static String *s_init; static String *r_init; // RINIT user code static String *s_shutdown; // MSHUTDOWN user code static String *r_shutdown; // RSHUTDOWN user code static String *s_vdecl; static String *s_cinit; // consttab initialization code. static String *s_oinit; static String *s_arginfo; static String *s_entry; static String *cs_entry; static String *all_cs_entry; static String *fake_cs_entry; static String *s_creation; static String *pragma_incl; static String *pragma_code; static String *pragma_phpinfo; static String *pragma_version; static String *class_name = NULL; static String *magic_set = NULL; static String *magic_get = NULL; static String *magic_isset = NULL; // Class used as pseudo-namespace for compatibility. static String *fake_class_name() { static String *result = NULL; if (!result) { result = Len(prefix) ? prefix : module; if (!s_creation) { s_creation = NewStringEmpty(); } if (!fake_cs_entry) { fake_cs_entry = NewStringf("static zend_function_entry class_%s_functions[] = {\n", result); } Printf(s_creation, "/* class entry for %s */\n",result); Printf(s_creation, "zend_class_entry *SWIGTYPE_%s_ce;\n\n",result); Printf(s_oinit, "\n{\n zend_class_entry internal_ce;\n"); Printf(s_oinit, " INIT_CLASS_ENTRY(internal_ce, \"%s\", class_%s_functions);\n", result, result); Printf(s_oinit, " SWIGTYPE_%s_ce = zend_register_internal_class(&internal_ce);\n", result); Printf(s_oinit, "}\n\n", result); } return result; } /* To reduce code size (generated and compiled) we only want to emit each * different arginfo once, so we need to track which have been used. */ static Hash *arginfo_used; /* Track non-class pointer types we need to to wrap */ static Hash *zend_types = 0; static int shadow = 1; static String *wrapping_member_constant = NULL; // These static variables are used to pass some state from Handlers into functionWrapper static enum { standard = 0, memberfn, staticmemberfn, membervar, staticmembervar, constructor, directorconstructor, directordisown } wrapperType = standard; extern "C" { static void (*r_prevtracefunc) (const SwigType *t, String *mangled, String *clientdata) = 0; } static void print_creation_free_wrapper(Node *n) { if (!s_creation) { s_creation = NewStringEmpty(); } String *s = s_creation; Printf(s, "/* class entry for %s */\n",class_name); Printf(s, "zend_class_entry *SWIGTYPE_%s_ce;\n\n",class_name); Printf(s, "/* class object handlers for %s */\n",class_name); Printf(s, "zend_object_handlers %s_object_handlers;\n\n",class_name); if (Getattr(n, "has_destructor")) { Printf(s, "/* Garbage Collection Method for class %s */\n",class_name); Printf(s, "void %s_free_storage(zend_object *object) {\n",class_name); Printf(s, " swig_object_wrapper *obj = 0;\n"); Printf(s, " if (!object)\n"); Printf(s, " return;\n"); Printf(s, " obj = php_fetch_object(object);\n"); Printf(s, " zend_object_std_dtor(&obj->std);\n"); // expand %delete typemap instead of SWIG_remove? Printf(s, " if (obj->newobject)\n"); Printf(s, " SWIG_remove((%s *)obj->ptr);\n", Getattr(n, "classtype")); Printf(s, "}\n\n"); } Printf(s, "/* Object Creation Method for class %s */\n",class_name); Printf(s, "zend_object * %s_object_new(zend_class_entry *ce) {\n",class_name); Printf(s, " swig_object_wrapper *obj = (swig_object_wrapper*)zend_object_alloc(sizeof(swig_object_wrapper), ce);\n"); Printf(s, " zend_object_std_init(&obj->std, ce);\n"); Printf(s, " object_properties_init(&obj->std, ce);\n"); Printf(s, " %s_object_handlers.offset = XtOffsetOf(swig_object_wrapper, std);\n", class_name); if (Getattr(n, "has_destructor")) { Printf(s, " %s_object_handlers.free_obj = %s_free_storage;\n", class_name, class_name); } Printf(s, " obj->std.handlers = &%s_object_handlers;\n obj->newobject = 1;\n return &obj->std;\n}\n\n\n",class_name); } static void SwigPHP_emit_pointer_type_registrations() { if (!zend_types) return; Iterator ki = First(zend_types); if (!ki.key) return; Printf(s_wrappers, "/* class object handlers for pointer wrappers */\n"); Printf(s_wrappers, "static zend_object_handlers swig_ptr_object_handlers;\n\n"); Printf(s_wrappers, "/* Object Creation Method for pointer wrapping class */\n"); Printf(s_wrappers, "static zend_object * swig_ptr_object_new(zend_class_entry *ce) {\n"); Printf(s_wrappers, " swig_object_wrapper *obj = (swig_object_wrapper*)zend_object_alloc(sizeof(swig_object_wrapper), ce);\n"); Printf(s_wrappers, " zend_object_std_init(&obj->std, ce);\n"); Printf(s_wrappers, " object_properties_init(&obj->std, ce);\n"); Printf(s_wrappers, " obj->std.handlers = &swig_ptr_object_handlers;\n"); Printf(s_wrappers, " obj->newobject = 0;\n"); Printf(s_wrappers, " return &obj->std;\n"); Printf(s_wrappers, "}\n\n"); Printf(s_wrappers, "/* Implement __toString equivalent, since that worked for the old-style resource wrapped pointers. */\n"); Append(s_wrappers, "#if PHP_MAJOR_VERSION < 8\n"); Printf(s_wrappers, "static int swig_ptr_cast_object(zval *z, zval *retval, int type) {\n"); Append(s_wrappers, "#else\n"); Printf(s_wrappers, "static int swig_ptr_cast_object(zend_object *zobj, zval *retval, int type) {\n"); Append(s_wrappers, "#endif\n"); Printf(s_wrappers, " if (type == IS_STRING) {\n"); Printf(s_wrappers, " char buf[80];\n"); Append(s_wrappers, "#if PHP_MAJOR_VERSION < 8\n"); Printf(s_wrappers, " swig_object_wrapper *obj = SWIG_Z_FETCH_OBJ_P(z);\n"); Append(s_wrappers, "#else\n"); Printf(s_wrappers, " swig_object_wrapper *obj = php_fetch_object(zobj);\n"); Append(s_wrappers, "#endif\n"); Printv(s_wrappers, " sprintf(buf, \"SWIGPointer(%p,owned=%d)\", obj->ptr, obj->newobject);\n", NIL); Printf(s_wrappers, " ZVAL_STRING(retval, buf);\n"); Printf(s_wrappers, " return SUCCESS;\n"); Printf(s_wrappers, " }\n"); Printf(s_wrappers, " return FAILURE;\n"); Printf(s_wrappers, "}\n\n"); Printf(s_oinit, "\n /* Register classes to represent non-class pointer types */\n"); Printf(s_oinit, " memcpy(&swig_ptr_object_handlers, zend_get_std_object_handlers(), sizeof(zend_object_handlers));\n"); Printf(s_oinit, " swig_ptr_object_handlers.offset = XtOffsetOf(swig_object_wrapper, std);\n"); Printf(s_oinit, " swig_ptr_object_handlers.cast_object = swig_ptr_cast_object;\n"); while (ki.key) { String *type = ki.key; if (!s_creation) { s_creation = NewStringEmpty(); } Printf(s_creation, "/* class entry for pointer to %s */\n", type); Printf(s_creation, "zend_class_entry *SWIGTYPE_%s_ce;\n\n", type); Printf(s_oinit, "{\n"); Printf(s_oinit, " zend_class_entry internal_ce;\n"); Printf(s_oinit, " INIT_CLASS_ENTRY(internal_ce, \"%s\\\\%s\", NULL);\n", "SWIG", type); Printf(s_oinit, " SWIGTYPE_%s_ce = zend_register_internal_class(&internal_ce);\n", type); Printf(s_oinit, " SWIGTYPE_%s_ce->create_object = swig_ptr_object_new;\n", type); Printf(s_oinit, " SWIG_TypeClientData(SWIGTYPE%s,SWIGTYPE_%s_ce);\n", type, type); Printf(s_oinit, "}\n\n"); ki = Next(ki); } } class PHP : public Language { public: PHP() { director_language = 1; } /* ------------------------------------------------------------ * main() * ------------------------------------------------------------ */ virtual void main(int argc, char *argv[]) { SWIG_library_directory("php"); for (int i = 1; i < argc; i++) { if (strcmp(argv[i], "-prefix") == 0) { if (argv[i + 1]) { prefix = NewString(argv[i + 1]); Swig_mark_arg(i); Swig_mark_arg(i + 1); i++; } else { Swig_arg_error(); } } else if ((strcmp(argv[i], "-noshadow") == 0)) { shadow = 0; Swig_mark_arg(i); } else if (strcmp(argv[i], "-help") == 0) { fputs(usage, stdout); } } Preprocessor_define("SWIGPHP 1", 0); Preprocessor_define("SWIGPHP7 1", 0); SWIG_typemap_lang("php"); SWIG_config_file("php.swg"); allow_overloading(); } /* ------------------------------------------------------------ * top() * ------------------------------------------------------------ */ virtual int top(Node *n) { String *filen; /* Check if directors are enabled for this module. */ Node *mod = Getattr(n, "module"); if (mod) { Node *options = Getattr(mod, "options"); if (options && Getattr(options, "directors")) { allow_directors(); } } /* Set comparison with null for ConstructorToFunction */ setSubclassInstanceCheck(NewString("Z_TYPE_P($arg) != IS_NULL")); /* Initialize all of the output files */ String *outfile = Getattr(n, "outfile"); String *outfile_h = Getattr(n, "outfile_h"); /* main output file */ f_begin = NewFile(outfile, "w", SWIG_output_files()); if (!f_begin) { FileErrorDisplay(outfile); SWIG_exit(EXIT_FAILURE); } f_runtime = NewStringEmpty(); /* sections of the output file */ s_init = NewStringEmpty(); r_init = NewStringEmpty(); s_shutdown = NewStringEmpty(); r_shutdown = NewStringEmpty(); s_header = NewString("/* header section */\n"); s_wrappers = NewString("/* wrapper section */\n"); /* subsections of the init section */ s_vdecl = NewString("/* vdecl subsection */\n"); s_cinit = NewString(" /* cinit subsection */\n"); s_oinit = NewString(" /* oinit subsection */\n"); pragma_phpinfo = NewStringEmpty(); f_directors_h = NewStringEmpty(); f_directors = NewStringEmpty(); if (directorsEnabled()) { f_runtime_h = NewFile(outfile_h, "w", SWIG_output_files()); if (!f_runtime_h) { FileErrorDisplay(outfile_h); SWIG_exit(EXIT_FAILURE); } } /* Register file targets with the SWIG file handler */ Swig_register_filebyname("begin", f_begin); Swig_register_filebyname("runtime", f_runtime); Swig_register_filebyname("init", s_init); Swig_register_filebyname("rinit", r_init); Swig_register_filebyname("shutdown", s_shutdown); Swig_register_filebyname("rshutdown", r_shutdown); Swig_register_filebyname("header", s_header); Swig_register_filebyname("wrapper", s_wrappers); Swig_register_filebyname("director", f_directors); Swig_register_filebyname("director_h", f_directors_h); Swig_banner(f_begin); Printf(f_runtime, "\n\n#ifndef SWIGPHP\n#define SWIGPHP\n#endif\n\n"); if (directorsEnabled()) { Printf(f_runtime, "#define SWIG_DIRECTORS\n"); } /* Set the module name */ module = Copy(Getattr(n, "name")); cap_module = NewStringf("%(upper)s", module); if (!prefix) prefix = NewStringEmpty(); if (directorsEnabled()) { Swig_banner(f_directors_h); Printf(f_directors_h, "\n"); Printf(f_directors_h, "#ifndef SWIG_%s_WRAP_H_\n", cap_module); Printf(f_directors_h, "#define SWIG_%s_WRAP_H_\n\n", cap_module); String *filename = Swig_file_filename(outfile_h); Printf(f_directors, "\n#include \"%s\"\n\n", filename); Delete(filename); } /* PHP module file */ filen = NewStringEmpty(); Printv(filen, SWIG_output_directory(), module, ".php", NIL); f_phpcode = NewFile(filen, "w", SWIG_output_files()); if (!f_phpcode) { FileErrorDisplay(filen); SWIG_exit(EXIT_FAILURE); } Printf(f_phpcode, "error_msg = default_error_msg;\n"); Printf(s_header, " globals->error_code = default_error_code;\n"); Printf(s_header, "}\n"); Printf(s_header, "static void SWIG_ResetError(void) {\n"); Printf(s_header, " SWIG_ErrorMsg() = default_error_msg;\n"); Printf(s_header, " SWIG_ErrorCode() = default_error_code;\n"); Printf(s_header, "}\n"); Append(s_header, "\n"); Printf(s_header, "#define SWIG_name \"%s\"\n", module); Printf(s_header, "#ifdef __cplusplus\n"); Printf(s_header, "extern \"C\" {\n"); Printf(s_header, "#endif\n"); Printf(s_header, "#include \"php.h\"\n"); Printf(s_header, "#include \"php_ini.h\"\n"); Printf(s_header, "#include \"ext/standard/info.h\"\n"); Printf(s_header, "#include \"php_%s.h\"\n", module); Printf(s_header, "#ifdef __cplusplus\n"); Printf(s_header, "}\n"); Printf(s_header, "#endif\n\n"); Printf(s_header, "#ifdef __cplusplus\n#define SWIG_remove(PTR) delete PTR\n"); Printf(s_header, "#else\n#define SWIG_remove(PTR) free(PTR)\n#endif\n\n"); if (directorsEnabled()) { // Insert director runtime Swig_insert_file("director_common.swg", s_header); Swig_insert_file("director.swg", s_header); } /* Create the .h file too */ filen = NewStringEmpty(); Printv(filen, SWIG_output_directory(), "php_", module, ".h", NIL); f_h = NewFile(filen, "w", SWIG_output_files()); if (!f_h) { FileErrorDisplay(filen); SWIG_exit(EXIT_FAILURE); } Swig_banner(f_h); Printf(f_h, "\n"); Printf(f_h, "#ifndef PHP_%s_H\n", cap_module); Printf(f_h, "#define PHP_%s_H\n\n", cap_module); Printf(f_h, "extern zend_module_entry %s_module_entry;\n", module); Printf(f_h, "#define phpext_%s_ptr &%s_module_entry\n\n", module, module); Printf(f_h, "#ifdef PHP_WIN32\n"); Printf(f_h, "# define PHP_%s_API __declspec(dllexport)\n", cap_module); Printf(f_h, "#else\n"); Printf(f_h, "# define PHP_%s_API\n", cap_module); Printf(f_h, "#endif\n\n"); /* start the arginfo section */ s_arginfo = NewString("/* arginfo subsection */\n"); arginfo_used = NewHash(); /* start the function entry section */ s_entry = NewString("/* entry subsection */\n"); /* holds all the per-class function entry sections */ all_cs_entry = NewString("/* class entry subsection */\n"); cs_entry = NULL; fake_cs_entry = NULL; Printf(s_entry, "/* Every non-class user visible function must have an entry here */\n"); Printf(s_entry, "static zend_function_entry module_%s_functions[] = {\n", module); /* Emit all of the code */ Language::top(n); SwigPHP_emit_pointer_type_registrations(); if (s_creation) { Dump(s_creation, s_header); Delete(s_creation); s_creation = NULL; } /* start the init section */ { String * s_init_old = s_init; s_init = NewString("/* init section */\n"); Printv(s_init, "zend_module_entry ", module, "_module_entry = {\n", NIL); Printf(s_init, " STANDARD_MODULE_HEADER,\n"); Printf(s_init, " \"%s\",\n", module); Printf(s_init, " module_%s_functions,\n", module); Printf(s_init, " PHP_MINIT(%s),\n", module); if (Len(s_shutdown) > 0) { Printf(s_init, " PHP_MSHUTDOWN(%s),\n", module); } else { Printf(s_init, " NULL, /* No MSHUTDOWN code */\n"); } if (Len(r_init) > 0) { Printf(s_init, " PHP_RINIT(%s),\n", module); } else { Printf(s_init, " NULL, /* No RINIT code */\n"); } if (Len(r_shutdown) > 0) { Printf(s_init, " PHP_RSHUTDOWN(%s),\n", module); } else { Printf(s_init, " NULL, /* No RSHUTDOWN code */\n"); } if (Len(pragma_phpinfo) > 0) { Printf(s_init, " PHP_MINFO(%s),\n", module); } else { Printf(s_init, " NULL, /* No MINFO code */\n"); } if (Len(pragma_version) > 0) { Printf(s_init, " \"%s\",\n", pragma_version); } else { Printf(s_init, " NO_VERSION_YET,\n"); } Printf(s_init, " STANDARD_MODULE_PROPERTIES\n"); Printf(s_init, "};\n"); Printf(s_init, "zend_module_entry* SWIG_module_entry = &%s_module_entry;\n\n", module); Printf(s_init, "#ifdef __cplusplus\n"); Printf(s_init, "extern \"C\" {\n"); Printf(s_init, "#endif\n"); // We want to write "SWIGEXPORT ZEND_GET_MODULE(%s)" but ZEND_GET_MODULE // in PHP7 has "extern "C" { ... }" around it so we can't do that. Printf(s_init, "SWIGEXPORT zend_module_entry *get_module(void) { return &%s_module_entry; }\n", module); Printf(s_init, "#ifdef __cplusplus\n"); Printf(s_init, "}\n"); Printf(s_init, "#endif\n\n"); Printf(s_init, "#define SWIG_php_minit PHP_MINIT_FUNCTION(%s)\n\n", module); Printv(s_init, s_init_old, NIL); Delete(s_init_old); } /* We have to register the constants before they are (possibly) used * by the pointer typemaps. This all needs re-arranging really as * things are being called in the wrong order */ // Printv(s_init,s_resourcetypes,NIL); /* We need this after all classes written out by ::top */ Printf(s_oinit, " CG(active_class_entry) = NULL;\n"); Printf(s_oinit, " /* end oinit subsection */\n"); Printf(s_init, "%s\n", s_oinit); /* Constants generated during top call */ Printf(s_cinit, " /* end cinit subsection */\n"); Printf(s_init, "%s\n", s_cinit); Clear(s_cinit); Delete(s_cinit); Printf(s_init, " return SUCCESS;\n"); Printf(s_init, "}\n\n"); // Now do REQUEST init which holds any user specified %rinit, and also vinit if (Len(r_init) > 0) { Printf(f_h, "PHP_RINIT_FUNCTION(%s);\n", module); Printf(s_init, "PHP_RINIT_FUNCTION(%s)\n{\n", module); Printv(s_init, "/* rinit section */\n", r_init, "\n", NIL); Printf(s_init, " return SUCCESS;\n"); Printf(s_init, "}\n\n"); } Printf(f_h, "PHP_MINIT_FUNCTION(%s);\n", module); if (Len(s_shutdown) > 0) { Printf(f_h, "PHP_MSHUTDOWN_FUNCTION(%s);\n", module); Printv(s_init, "PHP_MSHUTDOWN_FUNCTION(", module, ")\n" "/* shutdown section */\n" "{\n", s_shutdown, " return SUCCESS;\n" "}\n\n", NIL); } if (Len(r_shutdown) > 0) { Printf(f_h, "PHP_RSHUTDOWN_FUNCTION(%s);\n", module); Printf(s_init, "PHP_RSHUTDOWN_FUNCTION(%s)\n{\n", module); Printf(s_init, "/* rshutdown section */\n"); Printf(s_init, "%s\n", r_shutdown); Printf(s_init, " return SUCCESS;\n"); Printf(s_init, "}\n\n"); } if (Len(pragma_phpinfo) > 0) { Printf(f_h, "PHP_MINFO_FUNCTION(%s);\n", module); Printf(s_init, "PHP_MINFO_FUNCTION(%s)\n{\n", module); Printf(s_init, "%s", pragma_phpinfo); Printf(s_init, "}\n"); } Printf(s_init, "/* end init section */\n"); Printf(f_h, "\n#endif /* PHP_%s_H */\n", cap_module); Delete(f_h); String *type_table = NewStringEmpty(); SwigType_emit_type_table(f_runtime, type_table); Printf(s_header, "%s", type_table); Delete(type_table); /* Oh dear, more things being called in the wrong order. This whole * function really needs totally redoing. */ if (directorsEnabled()) { Dump(f_directors_h, f_runtime_h); Printf(f_runtime_h, "\n"); Printf(f_runtime_h, "#endif\n"); Delete(f_runtime_h); } Printf(s_header, "/* end header section */\n"); Printf(s_wrappers, "/* end wrapper section */\n"); Printf(s_vdecl, "/* end vdecl subsection */\n"); Dump(f_runtime, f_begin); Printv(f_begin, s_header, NIL); if (directorsEnabled()) { Dump(f_directors, f_begin); } Printv(f_begin, s_vdecl, s_wrappers, NIL); Printv(f_begin, s_arginfo, "\n\n", all_cs_entry, "\n\n", s_entry, " ZEND_FE_END\n};\n\n", NIL); if (fake_cs_entry) { Printv(f_begin, fake_cs_entry, " ZEND_FE_END\n};\n\n", NIL); Delete(fake_cs_entry); fake_cs_entry = NULL; } Printv(f_begin, s_init, NIL); Delete(s_header); Delete(s_wrappers); Delete(s_init); Delete(s_vdecl); Delete(all_cs_entry); Delete(s_entry); Delete(s_arginfo); Delete(f_runtime); Delete(f_begin); Delete(arginfo_used); Printf(f_phpcode, "%s\n%s\n", pragma_incl, pragma_code); return SWIG_OK; } /* Just need to append function names to function table to register with PHP. */ void create_command(String *cname, String *fname, Node *n, bool overload, String *modes = NULL) { // This is for the single main zend_function_entry record bool has_this = false; if (cname && Cmp(Getattr(n, "storage"), "friend") != 0) { Printf(f_h, "PHP_METHOD(%s%s,%s);\n", prefix, cname, fname); has_this = (wrapperType != staticmemberfn) && (wrapperType != staticmembervar) && (Cmp(fname, "__construct") != 0); } else { if (overload) { Printf(f_h, "ZEND_NAMED_FUNCTION(%s);\n", fname); } else { Printf(f_h, "PHP_FUNCTION(%s);\n", fname); } } // We want to only emit each different arginfo once, as that reduces the // size of both the generated source code and the compiled extension // module. The parameters at this level are just named arg1, arg2, etc // so we generate an arginfo name with the number of parameters and a // bitmap value saying which (if any) are passed by reference. ParmList *l = Getattr(n, "parms"); unsigned long bitmap = 0, bit = 1; bool overflowed = false; bool skip_this = has_this; for (Parm *p = l; p; p = Getattr(p, "tmap:in:next")) { if (skip_this) { skip_this = false; continue; } String* tmap_in_numinputs = Getattr(p, "tmap:in:numinputs"); // tmap:in:numinputs is unset for varargs, which we don't count here. if (!tmap_in_numinputs || Equal(tmap_in_numinputs, "0")) { /* Ignored parameter */ continue; } if (GetFlag(p, "tmap:in:byref")) { bitmap |= bit; if (bit == 0) overflowed = true; } bit <<= 1; } int num_arguments = emit_num_arguments(l); int num_required = emit_num_required(l); if (has_this) { --num_arguments; --num_required; } String * arginfo_code; if (overflowed) { // We overflowed the bitmap so just generate a unique name - this only // happens for a function with more parameters than bits in a long // where a high numbered parameter is passed by reference, so should be // rare in practice. static int overflowed_counter = 0; arginfo_code = NewStringf("z%d", ++overflowed_counter); } else if (bitmap == 0) { // No parameters passed by reference. if (num_required == num_arguments) { arginfo_code = NewStringf("%d", num_arguments); } else { arginfo_code = NewStringf("%d_%d", num_required, num_arguments); } } else { if (num_required == num_arguments) { arginfo_code = NewStringf("%d_r%lx", num_arguments, bitmap); } else { arginfo_code = NewStringf("%d_%d_r%lx", num_required, num_arguments, bitmap); } } if (!GetFlag(arginfo_used, arginfo_code)) { // Not had this one before so emit it. SetFlag(arginfo_used, arginfo_code); Printf(s_arginfo, "ZEND_BEGIN_ARG_INFO_EX(swig_arginfo_%s, 0, 0, %d)\n", arginfo_code, num_required); bool skip_this = has_this; int param_count = 0; for (Parm *p = l; p; p = Getattr(p, "tmap:in:next")) { if (skip_this) { skip_this = false; continue; } String* tmap_in_numinputs = Getattr(p, "tmap:in:numinputs"); // tmap:in:numinputs is unset for varargs, which we don't count here. if (!tmap_in_numinputs || Equal(tmap_in_numinputs, "0")) { /* Ignored parameter */ continue; } Printf(s_arginfo, " ZEND_ARG_INFO(%d,arg%d)\n", GetFlag(p, "tmap:in:byref"), ++param_count); } Printf(s_arginfo, "ZEND_END_ARG_INFO()\n"); } String * s = cs_entry; if (!s) s = s_entry; if (cname && Cmp(Getattr(n, "storage"), "friend") != 0) { Printf(all_cs_entry, " PHP_ME(%s%s,%s,swig_arginfo_%s,%s)\n", prefix, cname, fname, arginfo_code, modes); } else { if (overload) { if (wrap_nonclass_global) { Printf(s, " ZEND_NAMED_FE(%(lower)s,%s,swig_arginfo_%s)\n", Getattr(n, "sym:name"), fname, arginfo_code); } if (wrap_nonclass_fake_class) { (void)fake_class_name(); Printf(fake_cs_entry, " ZEND_NAMED_ME(%(lower)s,%s,swig_arginfo_%s,ZEND_ACC_PUBLIC|ZEND_ACC_STATIC)\n", Getattr(n, "sym:name"), fname, arginfo_code); } } else { if (wrap_nonclass_global) { Printf(s, " PHP_FE(%s,swig_arginfo_%s)\n", fname, arginfo_code); } if (wrap_nonclass_fake_class) { String *fake_class = fake_class_name(); Printf(fake_cs_entry, " PHP_ME(%s,%s,swig_arginfo_%s,ZEND_ACC_PUBLIC|ZEND_ACC_STATIC)\n", fake_class, fname, arginfo_code); } } } Delete(arginfo_code); } /* ------------------------------------------------------------ * dispatchFunction() * ------------------------------------------------------------ */ void dispatchFunction(Node *n, int constructor) { /* Last node in overloaded chain */ int maxargs; String *tmp = NewStringEmpty(); String *dispatch = Swig_overload_dispatch(n, "%s(INTERNAL_FUNCTION_PARAM_PASSTHRU); return;", &maxargs); /* Generate a dispatch wrapper for all overloaded functions */ Wrapper *f = NewWrapper(); String *symname = Getattr(n, "sym:name"); String *wname = NULL; String *modes = NULL; bool constructorRenameOverload = false; if (constructor) { // Renamed constructor - turn into static factory method if (Cmp(class_name, Getattr(n, "constructorHandler:sym:name")) != 0) { constructorRenameOverload = true; wname = Copy(Getattr(n, "constructorHandler:sym:name")); } else { wname = NewString("__construct"); } } else if (class_name) { wname = Getattr(n, "wrapper:method:name"); } else { wname = Swig_name_wrapper(symname); } if (constructor) { modes = NewString("ZEND_ACC_PUBLIC | ZEND_ACC_CTOR"); if (constructorRenameOverload) { Append(modes, " | ZEND_ACC_STATIC"); } } else if (wrapperType == staticmemberfn || Cmp(Getattr(n, "storage"), "static") == 0) { modes = NewString("ZEND_ACC_PUBLIC | ZEND_ACC_STATIC"); } else { modes = NewString("ZEND_ACC_PUBLIC"); } create_command(class_name, wname, n, true, modes); if (class_name && Cmp(Getattr(n, "storage"), "friend") != 0) { Printv(f->def, "PHP_METHOD(", prefix, class_name, ",", wname, ") {\n", NIL); } else { Printv(f->def, "ZEND_NAMED_FUNCTION(", wname, ") {\n", NIL); } Wrapper_add_local(f, "argc", "int argc"); Printf(tmp, "zval argv[%d]", maxargs); Wrapper_add_local(f, "argv", tmp); Printf(f->code, "argc = ZEND_NUM_ARGS();\n"); Printf(f->code, "zend_get_parameters_array_ex(argc, argv);\n"); Replaceall(dispatch, "$args", "self,args"); Printv(f->code, dispatch, "\n", NIL); Printf(f->code, "SWIG_ErrorCode() = E_ERROR;\n"); Printf(f->code, "SWIG_ErrorMsg() = \"No matching function for overloaded '%s'\";\n", symname); Printv(f->code, "SWIG_FAIL();\n", NIL); Printv(f->code, "thrown:\n", NIL); Printv(f->code, "return;\n", NIL); Printv(f->code, "}\n", NIL); Wrapper_print(f, s_wrappers); DelWrapper(f); Delete(dispatch); Delete(tmp); } /* ------------------------------------------------------------ * functionWrapper() * ------------------------------------------------------------ */ /* Helper method for PHP::functionWrapper */ bool is_class(SwigType *t) { Node *n = classLookup(t); if (n) { String *r = Getattr(n, "php:proxy"); // Set by classDeclaration() if (!r) r = Getattr(n, "sym:name"); // Not seen by classDeclaration yet, but this is the name if (r) return true; } return false; } /* Helper method for PHP::functionWrapper to get class name for parameter*/ String *get_class_name(SwigType *t) { Node *n = classLookup(t); String *r = NULL; if (n) { r = Getattr(n, "php:proxy"); // Set by classDeclaration() if (!r) r = Getattr(n, "sym:name"); // Not seen by classDeclaration yet, but this is the name } return r; } /* Helper function to check if class is wrapped */ bool is_class_wrapped(String *className) { if (!className) return false; Node * n = symbolLookup(className); return n && Getattr(n, "classtype") != NULL; } /* Is special return type */ bool is_param_type_pointer(SwigType *t) { if (SwigType_ispointer(t) || SwigType_ismemberpointer(t) || SwigType_isreference(t) || SwigType_isarray(t)) return true; return false; } void generate_magic_property_methods(Node *class_node, String *baseClassExtend) { if (Cmp(baseClassExtend, "Exception") == 0 || !is_class_wrapped(baseClassExtend)) { baseClassExtend = NULL; } // Ensure arginfo_1 and arginfo_2 exist. if (!GetFlag(arginfo_used, "1")) { SetFlag(arginfo_used, "1"); Append(s_arginfo, "ZEND_BEGIN_ARG_INFO_EX(swig_arginfo_1, 0, 0, 1)\n" " ZEND_ARG_INFO(0,arg1)\n" "ZEND_END_ARG_INFO()\n"); } if (!GetFlag(arginfo_used, "2")) { SetFlag(arginfo_used, "2"); Append(s_arginfo, "ZEND_BEGIN_ARG_INFO_EX(swig_arginfo_2, 0, 0, 2)\n" " ZEND_ARG_INFO(0,arg1)\n" " ZEND_ARG_INFO(0,arg2)\n" "ZEND_END_ARG_INFO()\n"); } Wrapper *f = NewWrapper(); Printf(f_h, "PHP_METHOD(%s%s,__set);\n", prefix, class_name); Printf(all_cs_entry, " PHP_ME(%s%s,__set,swig_arginfo_2,ZEND_ACC_PUBLIC)\n", prefix, class_name); Printf(f->code, "PHP_METHOD(%s%s,__set) {\n", prefix, class_name); Printf(f->code, " swig_object_wrapper *arg = SWIG_Z_FETCH_OBJ_P(ZEND_THIS);\n"); Printf(f->code, " zval args[2];\n zval tempZval;\n zend_string *arg2 = 0;\n\n"); Printf(f->code, " if(ZEND_NUM_ARGS() != 2 || zend_get_parameters_array_ex(2, args) != SUCCESS) {\n"); Printf(f->code, "\tWRONG_PARAM_COUNT;\n}\n\n"); Printf(f->code, " if(!arg) SWIG_PHP_Error(E_ERROR, \"this pointer is NULL\");\n\n"); Printf(f->code, " arg2 = Z_STR(args[0]);\n\n"); Printf(f->code, "if (!arg2) {\n RETVAL_NULL();\n}\n"); if (magic_set) { Append(f->code, magic_set); } Printf(f->code, "\nelse if (strcmp(ZSTR_VAL(arg2),\"thisown\") == 0) {\n"); Printf(f->code, "arg->newobject = zval_get_long(&args[1]);\n"); if (Swig_directorclass(class_node)) { Printv(f->code, "if (arg->newobject == 0) {\n", " Swig::Director *director = SWIG_DIRECTOR_CAST((", Getattr(class_node, "classtype"), "*)(arg->ptr));\n", " if (director) director->swig_disown();\n", "}\n", NIL); } Printf(f->code, "} else {\n"); if (baseClassExtend) { Printf(f->code, "PHP_MN(%s___set)(INTERNAL_FUNCTION_PARAM_PASSTHRU);\n}\n", baseClassExtend); } else { Printf(f->code, "add_property_zval_ex(ZEND_THIS, ZSTR_VAL(arg2), ZSTR_LEN(arg2), &args[1]);\n}\n"); } Printf(f->code, "thrown:\n"); Printf(f->code, "return;\n"); /* Error handling code */ Printf(f->code, "fail:\n"); Append(f->code, "SWIG_FAIL();\n"); Printf(f->code, "}\n\n\n"); Printf(f_h, "PHP_METHOD(%s%s,__get);\n", prefix, class_name); Printf(all_cs_entry, " PHP_ME(%s%s,__get,swig_arginfo_1,ZEND_ACC_PUBLIC)\n", prefix, class_name); Printf(f->code, "PHP_METHOD(%s%s,__get) {\n",prefix, class_name); Printf(f->code, " swig_object_wrapper *arg = SWIG_Z_FETCH_OBJ_P(ZEND_THIS);\n", class_name); Printf(f->code, " zval args[1];\n zval tempZval;\n zend_string *arg2 = 0;\n\n"); Printf(f->code, " if(ZEND_NUM_ARGS() != 1 || zend_get_parameters_array_ex(1, args) != SUCCESS) {\n"); Printf(f->code, "\tWRONG_PARAM_COUNT;\n}\n\n"); Printf(f->code, " if(!arg) SWIG_PHP_Error(E_ERROR, \"this pointer is NULL\");\n\n"); Printf(f->code, " arg2 = Z_STR(args[0]);\n\n"); Printf(f->code, "if (!arg2) {\n RETVAL_NULL();\n}\n"); if (magic_get) { Append(f->code, magic_get); } Printf(f->code, "\nelse if (strcmp(ZSTR_VAL(arg2),\"thisown\") == 0) {\n"); Printf(f->code, "if(arg->newobject) {\nRETVAL_LONG(1);\n}\nelse {\nRETVAL_LONG(0);\n}\n}\n\n"); Printf(f->code, "else {\n"); if (baseClassExtend) { Printf(f->code, "PHP_MN(%s___get)(INTERNAL_FUNCTION_PARAM_PASSTHRU);\n}\n", baseClassExtend); } else { // __get is only called if the property isn't set on the zend_object. Printf(f->code, "RETVAL_NULL();\n}\n"); } Printf(f->code, "thrown:\n"); Printf(f->code, "return;\n"); /* Error handling code */ Printf(f->code, "fail:\n"); Append(f->code, "SWIG_FAIL();\n"); Printf(f->code, "}\n\n\n"); Printf(f_h, "PHP_METHOD(%s%s,__isset);\n", prefix, class_name); Printf(all_cs_entry, " PHP_ME(%s%s,__isset,swig_arginfo_1,ZEND_ACC_PUBLIC)\n", prefix, class_name); Printf(f->code, "PHP_METHOD(%s%s,__isset) {\n",prefix, class_name); Printf(f->code, " swig_object_wrapper *arg = SWIG_Z_FETCH_OBJ_P(ZEND_THIS);\n", class_name); Printf(f->code, " zval args[1];\n zend_string *arg2 = 0;\n\n"); Printf(f->code, " if(ZEND_NUM_ARGS() != 1 || zend_get_parameters_array_ex(1, args) != SUCCESS) {\n"); Printf(f->code, "\tWRONG_PARAM_COUNT;\n}\n\n"); Printf(f->code, " if(!arg) SWIG_PHP_Error(E_ERROR, \"this pointer is NULL\");\n\n"); Printf(f->code, " arg2 = Z_STR(args[0]);\n\n"); Printf(f->code, "if (!arg2) {\n RETVAL_FALSE;\n}\n"); Printf(f->code, "\nelse if (strcmp(ZSTR_VAL(arg2),\"thisown\") == 0) {\n"); Printf(f->code, "RETVAL_TRUE;\n}\n\n"); if (magic_isset) { Append(f->code, magic_isset); } Printf(f->code, "else {\n"); if (baseClassExtend) { Printf(f->code, "PHP_MN(%s___isset)(INTERNAL_FUNCTION_PARAM_PASSTHRU);\n}\n", baseClassExtend); } else { // __isset is only called if the property isn't set on the zend_object. Printf(f->code, "RETVAL_FALSE;\n}\n"); } Printf(f->code, "thrown:\n"); Printf(f->code, "return;\n"); /* Error handling code */ Printf(f->code, "fail:\n"); Append(f->code, "SWIG_FAIL();\n"); Printf(f->code, "}\n\n\n"); Wrapper_print(f, s_wrappers); DelWrapper(f); f = NULL; Delete(magic_set); Delete(magic_get); Delete(magic_isset); magic_set = NULL; magic_get = NULL; magic_isset = NULL; } String *getAccessMode(String *access) { if (Cmp(access, "protected") == 0) { return NewString("ZEND_ACC_PROTECTED"); } else if (Cmp(access, "private") == 0) { return NewString("ZEND_ACC_PRIVATE"); } return NewString("ZEND_ACC_PUBLIC"); } bool is_setter_method(Node *n) { const char *p = GetChar(n, "sym:name"); if (strlen(p) > 4) { p += strlen(p) - 4; if (strcmp(p, "_set") == 0) { return true; } } return false; } bool is_getter_method(Node *n) { const char *p = GetChar(n, "sym:name"); if (strlen(p) > 4) { p += strlen(p) - 4; if (strcmp(p, "_get") == 0) { return true; } } return false; } virtual int functionWrapper(Node *n) { if (wrapperType == directordisown) { // Handled via __set magic method - no explicit wrapper method wanted. return SWIG_OK; } String *name = GetChar(n, "name"); String *iname = GetChar(n, "sym:name"); SwigType *d = Getattr(n, "type"); ParmList *l = Getattr(n, "parms"); String *nodeType = Getattr(n, "nodeType"); int newobject = GetFlag(n, "feature:new"); int constructor = (Cmp(nodeType, "constructor") == 0); Parm *p; int i; int numopt; String *tm; Wrapper *f; String *wname = NewStringEmpty(); String *overloadwname = NULL; int overloaded = 0; String *overname = 0; String *modes = NULL; bool static_setter = false; bool static_getter = false; modes = getAccessMode(Getattr(n, "access")); if (constructor) { Append(modes, " | ZEND_ACC_CTOR"); } if (wrapperType == staticmemberfn || Cmp(Getattr(n, "storage"), "static") == 0) { Append(modes, " | ZEND_ACC_STATIC"); } if (GetFlag(n, "abstract") && Swig_directorclass(Swig_methodclass(n)) && !is_member_director(n)) Append(modes, " | ZEND_ACC_ABSTRACT"); if (Getattr(n, "sym:overloaded")) { overloaded = 1; overname = Getattr(n, "sym:overname"); } else { if (!addSymbol(iname, n)) return SWIG_ERROR; } if (overname) { // Test for overloading overloadwname = NewString(Swig_name_wrapper(iname)); Printf(overloadwname, "%s", overname); } if (constructor) { wname = NewString("__construct"); } else if (wrapperType == membervar) { wname = Copy(Getattr(n, "membervariableHandler:sym:name")); if (is_setter_method(n)) { Append(wname, "_set"); } else if (is_getter_method(n)) { Append(wname, "_get"); } } else if (wrapperType == memberfn) { wname = Getattr(n, "memberfunctionHandler:sym:name"); } else if (wrapperType == staticmembervar) { // Shape::nshapes -> nshapes wname = Getattr(n, "staticmembervariableHandler:sym:name"); /* We get called twice for getter and setter methods. But to maintain compatibility, Shape::nshapes() is being used for both setter and getter methods. So using static_setter and static_getter variables to generate half of the code each time. */ static_setter = is_setter_method(n); if (is_getter_method(n)) { // This is to overcome types that can't be set and hence no setter. if (Cmp(Getattr(n, "feature:immutable"), "1") != 0) static_getter = true; } } else if (wrapperType == staticmemberfn) { wname = Getattr(n, "staticmemberfunctionHandler:sym:name"); } else { if (class_name) { if (Cmp(Getattr(n, "storage"), "friend") == 0 && Cmp(Getattr(n, "view"), "globalfunctionHandler") == 0) { wname = iname; } else { wname = Getattr(n, "destructorHandler:sym:name"); } } else { wname = iname; } } if (Cmp(nodeType, "destructor") == 0) { // We don't explicitly wrap the destructor for PHP - Zend manages the // reference counting, and the user can just do `$obj = null;' or similar // to remove a reference to an object. return SWIG_OK; } f = NewWrapper(); if (static_getter) { Printf(f->def, "{\n"); } String *outarg = NewStringEmpty(); String *cleanup = NewStringEmpty(); if (!overloaded) { if (!static_getter) { if (class_name && Cmp(Getattr(n, "storage"), "friend") != 0) { Printv(f->def, "PHP_METHOD(", prefix, class_name, ",", wname, ") {\n", NIL); } else { if (wrap_nonclass_global) { Printv(f->def, "PHP_METHOD(", fake_class_name(), ",", wname, ") {\n", " PHP_FN(", wname, ")(INTERNAL_FUNCTION_PARAM_PASSTHRU);\n", "}\n\n", NIL); } if (wrap_nonclass_fake_class) { Printv(f->def, "PHP_FUNCTION(", wname, ") {\n", NIL); } } } } else { if (class_name && Cmp(Getattr(n, "storage"), "friend") != 0) { Printv(f->def, "PHP_METHOD(", prefix, class_name, ",", overloadwname, ") {\n", NIL); } else { Printv(f->def, "ZEND_NAMED_FUNCTION(", overloadwname, ") {\n", NIL); } } emit_parameter_variables(l, f); /* Attach standard typemaps */ emit_attach_parmmaps(l, f); // Not issued for overloaded functions. if (!overloaded && !static_getter) { create_command(class_name, wname, n, false, modes); } if (wrapperType == memberfn || wrapperType == membervar) { // Assign "this" to arg1 and remove first entry from ParmList l. Printf(f->code, "arg1 = (%s)SWIG_Z_FETCH_OBJ_P(ZEND_THIS)->ptr;\n", SwigType_lstr(Getattr(l, "type"), "")); l = nextSibling(l); } // wrap:parms is used by overload resolution. Setattr(n, "wrap:parms", l); int num_arguments = emit_num_arguments(l); int num_required = emit_num_required(l); numopt = num_arguments - num_required; if (num_arguments > 0) { String *args = NewStringEmpty(); Printf(args, "zval args[%d]", num_arguments); Wrapper_add_local(f, "args", args); Delete(args); args = NULL; } if (wrapperType == directorconstructor) { Wrapper_add_local(f, "arg0", "zval *arg0 = ZEND_THIS"); } // This generated code may be called: // 1) as an object method, or // 2) as a class-method/function (without a "this_ptr") // Option (1) has "this_ptr" for "this", option (2) needs it as // first parameter // NOTE: possible we ignore this_ptr as a param for native constructor Printf(f->code, "SWIG_ResetError();\n"); if (numopt > 0) { // membervariable wrappers do not have optional args Wrapper_add_local(f, "arg_count", "int arg_count"); Printf(f->code, "arg_count = ZEND_NUM_ARGS();\n"); Printf(f->code, "if(arg_count<%d || arg_count>%d ||\n", num_required, num_arguments); Printf(f->code, " zend_get_parameters_array_ex(arg_count,args)!=SUCCESS)\n"); Printf(f->code, "\tWRONG_PARAM_COUNT;\n\n"); } else if (static_setter || static_getter) { if (num_arguments == 0) { Printf(f->code, "if(ZEND_NUM_ARGS() == 0) {\n"); } else { Printf(f->code, "if(ZEND_NUM_ARGS() == %d && zend_get_parameters_array_ex(%d, args) == SUCCESS) {\n", num_arguments, num_arguments); } } else { if (num_arguments == 0) { Printf(f->code, "if(ZEND_NUM_ARGS() != 0) {\n"); } else { Printf(f->code, "if(ZEND_NUM_ARGS() != %d || zend_get_parameters_array_ex(%d, args) != SUCCESS) {\n", num_arguments, num_arguments); } Printf(f->code, "WRONG_PARAM_COUNT;\n}\n\n"); } /* Now convert from PHP to C variables */ // At this point, argcount if used is the number of deliberately passed args // not including this_ptr even if it is used. // It means error messages may be out by argbase with error // reports. We can either take argbase into account when raising // errors, or find a better way of dealing with _thisptr. // I would like, if objects are wrapped, to assume _thisptr is always // _this and not the first argument. // This may mean looking at Language::memberfunctionHandler for (i = 0, p = l; i < num_arguments; i++) { String *source; /* Skip ignored arguments */ //while (Getattr(p,"tmap:ignore")) { p = Getattr(p,"tmap:ignore:next");} while (checkAttribute(p, "tmap:in:numinputs", "0")) { p = Getattr(p, "tmap:in:next"); } SwigType *pt = Getattr(p, "type"); source = NewStringf("args[%d]", i); /* Check if optional */ if (i >= num_required) { Printf(f->code, "\tif(arg_count > %d) {\n", i); } String *paramType_class = NULL; bool paramType_valid = is_class(pt); if (paramType_valid) { paramType_class = get_class_name(pt); Chop(paramType_class); } if ((tm = Getattr(p, "tmap:in"))) { Replaceall(tm, "$input", source); Setattr(p, "emit:input", source); Printf(f->code, "%s\n", tm); if (i == 0 && Getattr(p, "self")) { Printf(f->code, "\tif(!arg1) SWIG_PHP_Error(E_ERROR, \"this pointer is NULL\");\n"); } p = Getattr(p, "tmap:in:next"); if (i >= num_required) { Printf(f->code, "}\n"); } continue; } 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)); } if (i >= num_required) { Printf(f->code, "\t}\n"); } Delete(source); } if (is_member_director(n)) { Wrapper_add_local(f, "upcall", "bool upcall = false"); Printf(f->code, "upcall = !Swig::Director::swig_is_overridden_method(\"%s%s\", ZEND_THIS);\n", prefix, Swig_class_name(Swig_methodclass(n))); } Swig_director_emit_dynamic_cast(n, f); /* Insert constraint checking code */ for (p = l; p;) { if ((tm = Getattr(p, "tmap:check"))) { Printv(f->code, tm, "\n", NIL); p = Getattr(p, "tmap:check:next"); } else { p = nextSibling(p); } } /* Insert cleanup code */ for (i = 0, p = l; p; i++) { if ((tm = Getattr(p, "tmap:freearg"))) { Printv(cleanup, tm, "\n", NIL); p = Getattr(p, "tmap:freearg:next"); } else { p = nextSibling(p); } } /* Insert argument output code */ for (i = 0, p = l; p; i++) { if ((tm = Getattr(p, "tmap:argout")) && Len(tm)) { Replaceall(tm, "$result", "return_value"); Replaceall(tm, "$arg", Getattr(p, "emit:input")); Replaceall(tm, "$input", Getattr(p, "emit:input")); Printv(outarg, tm, "\n", NIL); p = Getattr(p, "tmap:argout:next"); } else { p = nextSibling(p); } } if (!overloaded) { Setattr(n, "wrap:name", wname); } else { if (class_name && Cmp(Getattr(n, "storage"), "friend") != 0) { String *m_call = NewStringEmpty(); Printf(m_call, "ZEND_MN(%s_%s)", class_name, overloadwname); Setattr(n, "wrap:name", m_call); } else { Setattr(n, "wrap:name", overloadwname); } } Setattr(n, "wrapper:method:name", wname); bool php_constructor = (constructor && Cmp(class_name, Getattr(n, "constructorHandler:sym:name")) == 0); /* emit function call */ String *actioncode = emit_action(n); if ((tm = Swig_typemap_lookup_out("out", n, Swig_cresult_name(), f, actioncode))) { Replaceall(tm, "$input", Swig_cresult_name()); Replaceall(tm, "$result", php_constructor ? "ZEND_THIS" : "return_value"); Replaceall(tm, "$owner", newobject ? "1" : "0"); Printf(f->code, "%s\n", tm); } else { Swig_warning(WARN_TYPEMAP_OUT_UNDEF, input_file, line_number, "Unable to use return type %s in function %s.\n", SwigType_str(d, 0), name); } emit_return_variable(n, d, f); if (outarg) { Printv(f->code, outarg, NIL); } if (cleanup) { 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, Swig_cresult_name(), 0))) { Printf(f->code, "%s\n", tm); Delete(tm); } } /* See if there is any return cleanup code */ if ((tm = Swig_typemap_lookup("ret", n, Swig_cresult_name(), 0))) { Printf(f->code, "%s\n", tm); Delete(tm); } if (static_getter) { Printf(f->code, "}\n"); } if (static_setter || static_getter) { Printf(f->code, "}\n"); } if (!static_setter) { Printf(f->code, "thrown:\n"); Printf(f->code, "return;\n"); /* Error handling code */ Printf(f->code, "fail:\n"); Printv(f->code, cleanup, NIL); Append(f->code, "SWIG_FAIL();\n"); Printf(f->code, "}\n"); } Replaceall(f->code, "$cleanup", cleanup); Replaceall(f->code, "$symname", iname); Wrapper_print(f, s_wrappers); DelWrapper(f); f = NULL; wname = NULL; if (overloaded && !Getattr(n, "sym:nextSibling")) { dispatchFunction(n, constructor); } return SWIG_OK; } /* ------------------------------------------------------------ * globalvariableHandler() * ------------------------------------------------------------ */ /* PHP doesn't support intercepting reads and writes to global variables * (nor static property reads and writes so we can't wrap them as static * properties on a dummy class) so just let SWIG do its default thing and * wrap them as name_get() and name_set(). */ //virtual int globalvariableHandler(Node *n) { //} /* ------------------------------------------------------------ * constantWrapper() * ------------------------------------------------------------ */ virtual int constantWrapper(Node *n) { String *name = GetChar(n, "name"); String *iname = GetChar(n, "sym:name"); SwigType *type = Getattr(n, "type"); String *rawval = Getattr(n, "rawval"); String *value = rawval ? rawval : Getattr(n, "value"); String *tm; if (!addSymbol(iname, n)) return SWIG_ERROR; SwigType_remember(type); if (!wrapping_member_constant) { { tm = Swig_typemap_lookup("consttab", n, name, 0); Replaceall(tm, "$value", value); Printf(s_cinit, "%s\n", tm); } { tm = Swig_typemap_lookup("classconsttab", n, name, 0); Replaceall(tm, "$class", fake_class_name()); Replaceall(tm, "$const_name", iname); Replaceall(tm, "$value", value); Printf(s_cinit, "%s\n", tm); } } else { tm = Swig_typemap_lookup("classconsttab", n, name, 0); Replaceall(tm, "$class", class_name); Replaceall(tm, "$const_name", wrapping_member_constant); Replaceall(tm, "$value", value); Printf(s_cinit, "%s\n", tm); } wrapperType = standard; return SWIG_OK; } /* * PHP::pragma() * * Pragma directive. * * %pragma(php) code="String" # Includes a string in the .php file * %pragma(php) include="file.php" # Includes a file in the .php file */ virtual int pragmaDirective(Node *n) { if (!ImportMode) { String *lang = Getattr(n, "lang"); String *type = Getattr(n, "name"); String *value = Getattr(n, "value"); if (Strcmp(lang, "php") == 0) { if (Strcmp(type, "code") == 0) { if (value) { Printf(pragma_code, "%s\n", value); } } else if (Strcmp(type, "include") == 0) { if (value) { Printf(pragma_incl, "include '%s';\n", value); } } else if (Strcmp(type, "phpinfo") == 0) { if (value) { Printf(pragma_phpinfo, "%s\n", value); } } else if (Strcmp(type, "version") == 0) { if (value) { pragma_version = value; } } else { Swig_warning(WARN_PHP_UNKNOWN_PRAGMA, input_file, line_number, "Unrecognized pragma <%s>.\n", type); } } } return Language::pragmaDirective(n); } /* ------------------------------------------------------------ * classDeclaration() * ------------------------------------------------------------ */ virtual int classDeclaration(Node *n) { if (!Getattr(n, "feature:onlychildren")) { String *symname = Getattr(n, "sym:name"); Setattr(n, "php:proxy", symname); } return Language::classDeclaration(n); } /* ------------------------------------------------------------ * classHandler() * ------------------------------------------------------------ */ virtual int classHandler(Node *n) { String *symname = Getattr(n, "sym:name"); String *baseClassExtend = NULL; bool exceptionClassFlag = false; class_name = symname; Printf(all_cs_entry, "static zend_function_entry class_%s_functions[] = {\n", class_name); Printf(s_oinit, "\n{\n zend_class_entry internal_ce;\n"); // namespace code to introduce namespaces into wrapper classes. //if (nameSpace != NULL) //Printf(s_oinit, "INIT_CLASS_ENTRY(internal_ce, \"%s\\\\%s\", class_%s_functions);\n", nameSpace, class_name, class_name); //else Printf(s_oinit, " INIT_CLASS_ENTRY(internal_ce, \"%s%s\", class_%s_functions);\n", prefix, class_name, class_name); if (shadow) { char *rename = GetChar(n, "sym:name"); if (!addSymbol(rename, n)) return SWIG_ERROR; /* Deal with inheritance */ 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) baseClassExtend = Getattr(base.item, "sym:name"); base = Next(base); if (base.item) { /* Warn about multiple inheritance for additional base class(es) */ while (base.item) { if (GetFlag(base.item, "feature:ignore")) { base = Next(base); continue; } String *proxyclassname = SwigType_str(Getattr(n, "classtypeobj"), 0); String *baseclassname = SwigType_str(Getattr(base.item, "name"), 0); Swig_warning(WARN_PHP_MULTIPLE_INHERITANCE, input_file, line_number, "Warning for %s, base %s ignored. Multiple inheritance is not supported in PHP.\n", proxyclassname, baseclassname); base = Next(base); } } } } if (Cmp(Getattr(n, "feature:exceptionclass"), "1") == 0 && Getattr(n, "feature:except")) { if (baseClassExtend) { Swig_warning(WARN_PHP_MULTIPLE_INHERITANCE, input_file, line_number, "Warning for %s, base %s ignored. Multiple inheritance is not supported in PHP.\n", class_name, baseClassExtend); } baseClassExtend = NewString(class_name); Append(baseClassExtend, "_Exception"); Printf(s_oinit, " zend_class_entry *SWIGTYPE_%s_ce = zend_lookup_class(zend_string_init(\"Exception\", sizeof(\"Exception\") - 1, 0));\n", baseClassExtend); exceptionClassFlag = true; } if (baseClassExtend && (exceptionClassFlag || is_class_wrapped(baseClassExtend))) { Printf(s_oinit, " SWIGTYPE_%s_ce = zend_register_internal_class_ex(&internal_ce, SWIGTYPE_%s_ce);\n", class_name, baseClassExtend); } else { Printf(s_oinit, " SWIGTYPE_%s_ce = zend_register_internal_class(&internal_ce);\n", class_name); } if (Getattr(n, "abstracts") && !GetFlag(n, "feature:notabstract")) { Printf(s_oinit, " SWIGTYPE_%s_ce->ce_flags |= ZEND_ACC_EXPLICIT_ABSTRACT_CLASS;\n", class_name); } { Node *node = NewHash(); Setattr(node, "type", Getattr(n, "name")); Setfile(node, Getfile(n)); Setline(node, Getline(n)); String *interfaces = Swig_typemap_lookup("phpinterfaces", node, "", 0); Replaceall(interfaces, " ", ""); if (interfaces) { List *interface_list = Split(interfaces, ',', -1); int num_interfaces = Len(interface_list); String *append_interface = NewStringEmpty(); for(int Iterator = 1; Iterator <= num_interfaces; Iterator++) { String *interface = Getitem(interface_list, Iterator-1); String *interface_ce = NewStringEmpty(); Printf(interface_ce, "php_%s_interface_ce_%d" , class_name , Iterator); Printf(s_oinit, " zend_class_entry *%s = zend_lookup_class(zend_string_init(\"%s\", sizeof(\"%s\") - 1, 0));\n", interface_ce, interface, interface); Append(append_interface, interface_ce); Append(append_interface, " "); } Chop(append_interface); Replaceall(append_interface, " ", ","); Printf(s_oinit, " zend_class_implements(SWIGTYPE_%s_ce, %d, %s);\n", class_name, num_interfaces, append_interface); } } Printf(s_oinit, " SWIGTYPE_%s_ce->create_object = %s_object_new;\n", class_name, class_name); Printf(s_oinit, " memcpy(&%s_object_handlers,zend_get_std_object_handlers(), sizeof(zend_object_handlers));\n", class_name); Printf(s_oinit, " %s_object_handlers.clone_obj = NULL;\n", class_name); // If not defined we aren't wrapping this type being passed or returned. Printf(s_oinit, "#ifdef SWIGTYPE_p%s\n", SwigType_manglestr(Getattr(n, "classtypeobj"))); Printf(s_oinit, " SWIG_TypeClientData(SWIGTYPE_p%s,SWIGTYPE_%s_ce);\n", SwigType_manglestr(Getattr(n, "classtypeobj")), class_name); Printf(s_oinit, "#endif\n"); Printf(s_oinit, "}\n\n"); Language::classHandler(n); print_creation_free_wrapper(n); generate_magic_property_methods(n, baseClassExtend); Printf(all_cs_entry, " ZEND_FE_END\n};\n\n"); class_name = NULL; return SWIG_OK; } /* ------------------------------------------------------------ * memberfunctionHandler() * ------------------------------------------------------------ */ virtual int memberfunctionHandler(Node *n) { wrapperType = memberfn; Language::memberfunctionHandler(n); wrapperType = standard; return SWIG_OK; } /* ------------------------------------------------------------ * membervariableHandler() * ------------------------------------------------------------ */ virtual int membervariableHandler(Node *n) { if (magic_set == NULL) { magic_set = NewStringEmpty(); magic_get = NewStringEmpty(); magic_isset = NewStringEmpty(); } String *v_name = GetChar(n, "name"); Printf(magic_set, "\nelse if (strcmp(ZSTR_VAL(arg2),\"%s\") == 0) {\n", v_name); Printf(magic_set, "ZVAL_STRING(&tempZval, \"%s_set\");\n", v_name); Printf(magic_set, "call_user_function(EG(function_table),ZEND_THIS,&tempZval,return_value,1,&args[1]);\n}\n"); Printf(magic_get, "\nelse if (strcmp(ZSTR_VAL(arg2),\"%s\") == 0) {\n", v_name); Printf(magic_get, "ZVAL_STRING(&tempZval, \"%s_get\");\n", v_name); Printf(magic_get, "call_user_function(EG(function_table),ZEND_THIS,&tempZval,return_value,0,NULL);\n}\n"); Printf(magic_isset, "\nelse if (strcmp(ZSTR_VAL(arg2),\"%s\") == 0) {\n", v_name); Printf(magic_isset, "RETVAL_TRUE;\n}\n"); wrapperType = membervar; Language::membervariableHandler(n); wrapperType = standard; return SWIG_OK; } /* ------------------------------------------------------------ * staticmembervariableHandler() * ------------------------------------------------------------ */ virtual int staticmembervariableHandler(Node *n) { wrapperType = staticmembervar; Language::staticmembervariableHandler(n); wrapperType = standard; return SWIG_OK; } /* ------------------------------------------------------------ * staticmemberfunctionHandler() * ------------------------------------------------------------ */ virtual int staticmemberfunctionHandler(Node *n) { wrapperType = staticmemberfn; Language::staticmemberfunctionHandler(n); wrapperType = standard; return SWIG_OK; } int abstractConstructorHandler(Node *) { return SWIG_OK; } /* ------------------------------------------------------------ * constructorHandler() * ------------------------------------------------------------ */ virtual int constructorHandler(Node *n) { if (Swig_directorclass(n)) { String *ctype = GetChar(Swig_methodclass(n), "classtype"); String *sname = GetChar(Swig_methodclass(n), "sym:name"); String *args = NewStringEmpty(); ParmList *p = Getattr(n, "parms"); int i; for (i = 0; p; p = nextSibling(p), i++) { if (i) { Printf(args, ", "); } if (Strcmp(GetChar(p, "type"), SwigType_str(GetChar(p, "type"), 0))) { SwigType *t = Getattr(p, "type"); Printf(args, "%s", SwigType_rcaststr(t, 0)); if (SwigType_isreference(t)) { Append(args, "*"); } } Printf(args, "arg%d", i+1); } /* director ctor code is specific for each class */ Delete(director_ctor_code); director_ctor_code = NewStringEmpty(); director_prot_ctor_code = NewStringEmpty(); Printf(director_ctor_code, "if (Swig::Director::swig_is_overridden_method(\"%s\", arg0)) { /* not subclassed */\n", class_name); Printf(director_prot_ctor_code, "if (Swig::Director::swig_is_overridden_method(\"%s\", arg0)) { /* not subclassed */\n", class_name); Printf(director_ctor_code, " %s = new %s(%s);\n", Swig_cresult_name(), ctype, args); Printf(director_prot_ctor_code, " SWIG_PHP_Error(E_ERROR, \"accessing abstract class or protected constructor\");\n"); if (i) { Insert(args, 0, ", "); } Printf(director_ctor_code, "} else {\n %s = (%s *)new SwigDirector_%s(arg0%s);\n}\n", Swig_cresult_name(), ctype, sname, args); Printf(director_prot_ctor_code, "} else {\n %s = (%s *)new SwigDirector_%s(arg0%s);\n}\n", Swig_cresult_name(), ctype, sname, args); Delete(args); wrapperType = directorconstructor; } else { wrapperType = constructor; } Language::constructorHandler(n); wrapperType = standard; return SWIG_OK; } /* ------------------------------------------------------------ * destructorHandler() * ------------------------------------------------------------ */ //virtual int destructorHandler(Node *n) { //} /* ------------------------------------------------------------ * memberconstantHandler() * ------------------------------------------------------------ */ virtual int memberconstantHandler(Node *n) { wrapping_member_constant = Getattr(n, "sym:name"); Language::memberconstantHandler(n); wrapping_member_constant = NULL; return SWIG_OK; } int classDirectorInit(Node *n) { String *declaration = Swig_director_declaration(n); Printf(f_directors_h, "%s\n", declaration); Printf(f_directors_h, "public:\n"); Delete(declaration); return Language::classDirectorInit(n); } int classDirectorEnd(Node *n) { Printf(f_directors_h, "};\n"); return Language::classDirectorEnd(n); } int classDirectorConstructor(Node *n) { Node *parent = Getattr(n, "parentNode"); String *decl = Getattr(n, "decl"); String *supername = Swig_class_name(parent); String *classname = NewStringEmpty(); Printf(classname, "SwigDirector_%s", supername); /* insert self parameter */ Parm *p; ParmList *superparms = Getattr(n, "parms"); ParmList *parms = CopyParmList(superparms); String *type = NewString("zval"); SwigType_add_pointer(type); p = NewParm(type, NewString("self"), n); set_nextSibling(p, parms); parms = p; if (!Getattr(n, "defaultargs")) { // There should always be a "self" parameter first. assert(ParmList_len(parms) > 0); /* constructor */ { Wrapper *w = NewWrapper(); String *call; String *basetype = Getattr(parent, "classtype"); String *target = Swig_method_decl(0, decl, classname, parms, 0); call = Swig_csuperclass_call(0, basetype, superparms); Printf(w->def, "%s::%s: %s, Swig::Director(self) {", classname, target, call); Append(w->def, "}"); Delete(target); Wrapper_print(w, f_directors); Delete(call); DelWrapper(w); } /* constructor header */ { String *target = Swig_method_decl(0, decl, classname, parms, 1); Printf(f_directors_h, " %s;\n", target); Delete(target); } } return Language::classDirectorConstructor(n); } int classDirectorMethod(Node *n, Node *parent, String *super) { int is_void = 0; int is_pointer = 0; String *decl = Getattr(n, "decl"); String *returntype = Getattr(n, "type"); String *name = Getattr(n, "name"); String *classname = Getattr(parent, "sym:name"); String *c_classname = Getattr(parent, "name"); String *symname = Getattr(n, "sym:name"); String *declaration = NewStringEmpty(); ParmList *l = Getattr(n, "parms"); Wrapper *w = NewWrapper(); String *tm; String *wrap_args = NewStringEmpty(); String *value = Getattr(n, "value"); String *storage = Getattr(n, "storage"); bool pure_virtual = false; int status = SWIG_OK; int idx; bool ignored_method = GetFlag(n, "feature:ignore") ? true : false; if (Cmp(storage, "virtual") == 0) { if (Cmp(value, "0") == 0) { pure_virtual = true; } } /* determine if the method returns a pointer */ is_pointer = SwigType_ispointer_return(decl); is_void = (Cmp(returntype, "void") == 0 && !is_pointer); /* virtual method definition */ String *target; String *pclassname = NewStringf("SwigDirector_%s", classname); String *qualified_name = NewStringf("%s::%s", pclassname, name); SwigType *rtype = Getattr(n, "conversion_operator") ? 0 : Getattr(n, "classDirectorMethods:type"); target = Swig_method_decl(rtype, decl, qualified_name, l, 0); Printf(w->def, "%s", target); Delete(qualified_name); Delete(target); /* header declaration */ target = Swig_method_decl(rtype, decl, name, l, 1); Printf(declaration, " virtual %s", target); Delete(target); // Get any exception classes in the throws typemap if (Getattr(n, "noexcept")) { Append(w->def, " noexcept"); Append(declaration, " noexcept"); } ParmList *throw_parm_list = 0; if ((throw_parm_list = Getattr(n, "throws")) || Getattr(n, "throw")) { Parm *p; 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 (Getattr(p, "tmap:throws")) { if (gencomma++) { Append(w->def, ", "); Append(declaration, ", "); } String *str = SwigType_str(Getattr(p, "type"), 0); Append(w->def, str); Append(declaration, str); Delete(str); } } Append(w->def, ")"); Append(declaration, ")"); } Append(w->def, " {"); Append(declaration, ";\n"); /* declare method return value * if the return value is a reference or const reference, a specialized typemap must * handle it, including declaration of c_result ($result). */ if (!is_void && (!ignored_method || pure_virtual)) { 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 { Wrapper_add_localv(w, "c_result", SwigType_lstr(returntype, "c_result"), "= 0", NIL); } } else { String *cres = SwigType_lstr(returntype, "c_result"); Printf(w->code, "%s;\n", cres); Delete(cres); } } if (ignored_method) { if (!pure_virtual) { if (!is_void) Printf(w->code, "return "); String *super_call = Swig_method_call(super, l); Printf(w->code, "%s;\n", super_call); Delete(super_call); } else { Printf(w->code, "Swig::DirectorPureVirtualException::raise(\"Attempted to invoke pure virtual method %s::%s\");\n", SwigType_namestr(c_classname), SwigType_namestr(name)); } } else { /* attach typemaps to arguments (C/C++ -> PHP) */ Swig_director_parms_fixup(l); /* remove the wrapper 'w' since it was producing spurious temps */ Swig_typemap_attach_parms("in", l, 0); Swig_typemap_attach_parms("directorin", l, w); Swig_typemap_attach_parms("directorargout", l, w); Parm *p; int outputs = 0; if (!is_void) outputs++; /* build argument list and type conversion string */ idx = 0; p = l; while (p) { if (checkAttribute(p, "tmap:in:numinputs", "0")) { p = Getattr(p, "tmap:in:next"); continue; } if (Getattr(p, "tmap:directorargout") != 0) outputs++; String *pname = Getattr(p, "name"); String *ptype = Getattr(p, "type"); if ((tm = Getattr(p, "tmap:directorin")) != 0) { String *parse = Getattr(p, "tmap:directorin:parse"); if (!parse) { String *input = NewStringf("&args[%d]", idx++); Setattr(p, "emit:directorinput", input); Replaceall(tm, "$input", input); Delete(input); Replaceall(tm, "$owner", "0"); Printv(wrap_args, tm, "\n", NIL); } else { Setattr(p, "emit:directorinput", pname); Replaceall(tm, "$input", pname); Replaceall(tm, "$owner", "0"); if (Len(tm) == 0) Append(tm, pname); } p = Getattr(p, "tmap:directorin:next"); continue; } else if (Cmp(ptype, "void")) { Swig_warning(WARN_TYPEMAP_DIRECTORIN_UNDEF, input_file, line_number, "Unable to use type %s as a function argument in director method %s::%s (skipping method).\n", SwigType_str(ptype, 0), SwigType_namestr(c_classname), SwigType_namestr(name)); status = SWIG_NOWRAP; break; } p = nextSibling(p); } if (!idx) { Printf(w->code, "zval *args = NULL;\n"); } else { Printf(w->code, "zval args[%d];\n", idx); } // typemap_directorout testcase requires that 0 can be assigned to the // variable named after the result of Swig_cresult_name(), so that can't // be a zval - make it a pointer to one instead. Printf(w->code, "zval swig_zval_result;\n"); Printf(w->code, "zval * SWIGUNUSED %s = &swig_zval_result;\n", Swig_cresult_name()); /* wrap complex arguments to zvals */ Append(w->code, wrap_args); const char * funcname = GetChar(n, "sym:name"); Append(w->code, "{\n"); Append(w->code, "#if PHP_MAJOR_VERSION < 8\n"); Printf(w->code, "zval swig_funcname;\n"); Printf(w->code, "ZVAL_STRINGL(&swig_funcname, \"%s\", %d);\n", funcname, strlen(funcname)); Printf(w->code, "call_user_function(EG(function_table), &swig_self, &swig_funcname, &swig_zval_result, %d, args);\n", idx); Append(w->code, "#else\n"); Printf(w->code, "zend_string *swig_funcname = zend_string_init(\"%s\", %d, 0);\n", funcname, strlen(funcname)); Append(w->code, "zend_function *swig_zend_func = zend_std_get_method(&Z_OBJ(swig_self), swig_funcname, NULL);\n"); Append(w->code, "zend_string_release(swig_funcname);\n"); Printf(w->code, "if (swig_zend_func) zend_call_known_instance_method(swig_zend_func, Z_OBJ(swig_self), &swig_zval_result, %d, args);\n", idx); Append(w->code, "#endif\n"); /* exception handling */ tm = Swig_typemap_lookup("director:except", n, Swig_cresult_name(), 0); if (!tm) { tm = Getattr(n, "feature:director:except"); if (tm) tm = Copy(tm); } if ((tm) && Len(tm) && (Strcmp(tm, "1") != 0)) { Replaceall(tm, "$error", "EG(exception)"); Printv(w->code, Str(tm), "\n", NIL); } Append(w->code, "}\n"); Delete(tm); /* marshal return value from PHP to C/C++ type */ String *cleanup = NewStringEmpty(); String *outarg = NewStringEmpty(); idx = 0; /* marshal return value */ if (!is_void) { tm = Swig_typemap_lookup("directorout", n, Swig_cresult_name(), w); if (tm != 0) { Replaceall(tm, "$input", Swig_cresult_name()); char temp[24]; sprintf(temp, "%d", idx); Replaceall(tm, "$argnum", temp); /* TODO check this */ if (Getattr(n, "wrap:disown")) { Replaceall(tm, "$disown", "SWIG_POINTER_DISOWN"); } else { Replaceall(tm, "$disown", "0"); } Replaceall(tm, "$result", "c_result"); Printv(w->code, tm, "\n", NIL); Delete(tm); } else { Swig_warning(WARN_TYPEMAP_DIRECTOROUT_UNDEF, input_file, line_number, "Unable to use return type %s in director method %s::%s (skipping method).\n", SwigType_str(returntype, 0), SwigType_namestr(c_classname), SwigType_namestr(name)); status = SWIG_ERROR; } } /* marshal outputs */ for (p = l; p;) { if ((tm = Getattr(p, "tmap:directorargout")) != 0) { Replaceall(tm, "$result", Swig_cresult_name()); Replaceall(tm, "$input", Getattr(p, "emit:directorinput")); Printv(w->code, tm, "\n", NIL); p = Getattr(p, "tmap:directorargout:next"); } else { p = nextSibling(p); } } Delete(cleanup); Delete(outarg); } Append(w->code, "thrown:\n"); if (!is_void) { if (!(ignored_method && !pure_virtual)) { String *rettype = SwigType_str(returntype, 0); if (!SwigType_isreference(returntype)) { Printf(w->code, "return (%s) c_result;\n", rettype); } else { Printf(w->code, "return (%s) *c_result;\n", rettype); } Delete(rettype); } } else { Append(w->code, "return;\n"); } Append(w->code, "fail:\n"); Append(w->code, "SWIG_FAIL();\n"); Append(w->code, "}\n"); // We expose protected methods via an extra public inline method which makes a straight call to the wrapped class' method String *inline_extra_method = NewStringEmpty(); 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 the director method */ if (status == SWIG_OK) { if (!Getattr(n, "defaultargs")) { Replaceall(w->code, "$symname", symname); Wrapper_print(w, f_directors); Printv(f_directors_h, declaration, NIL); Printv(f_directors_h, inline_extra_method, NIL); } } /* clean up */ Delete(wrap_args); Delete(pclassname); DelWrapper(w); return status; } int classDirectorDisown(Node *n) { wrapperType = directordisown; int result = Language::classDirectorDisown(n); wrapperType = standard; return result; } }; /* class PHP */ static PHP *maininstance = 0; // Collect non-class pointer types from the type table so we can set up PHP // resource types for them later. // // NOTE: it's a function NOT A PHP::METHOD extern "C" { static void typetrace(const SwigType *ty, String *mangled, String *clientdata) { if (maininstance->classLookup(ty) == NULL) { // a non-class pointer if (!zend_types) { zend_types = NewHash(); } Setattr(zend_types, mangled, mangled); } if (r_prevtracefunc) (*r_prevtracefunc) (ty, mangled, clientdata); } } /* ----------------------------------------------------------------------------- * new_swig_php() - Instantiate module * ----------------------------------------------------------------------------- */ static Language *new_swig_php() { maininstance = new PHP; if (!r_prevtracefunc) { r_prevtracefunc = SwigType_remember_trace(typetrace); } else { Printf(stderr, "php Typetrace vector already saved!\n"); assert(0); } return maininstance; } extern "C" Language *swig_php(void) { return new_swig_php(); }