/** @file Parser: @b reflection parser class. Copyright (c) 2001-2012 Art. Lebedev Studio (http://www.artlebedev.com) Author: Alexandr Petrosian (http://paf.design.ru) */ #include "pa_vmethod_frame.h" #include "pa_request.h" #include "pa_vbool.h" volatile const char * IDENT_REFLECTION_C="$Id: reflection.C,v 1.26 2012/05/27 22:10:09 misha Exp $"; static const String class_type_methoded("methoded"); static const String method_type_native("native"); static const String method_type_parser("parser"); static const String method_call_type("call_type"); static const String method_inherited("inherited"); static const String method_overridden("overridden"); static const String method_call_type_static("static"); static const String method_call_type_dynamic("dynamic"); static const String method_min_params("min_params"); static const String method_max_params("max_params"); // class class MReflection: public Methoded { public: MReflection(); }; // global variable DECLARE_CLASS_VAR(reflection, new MReflection, 0); // methods static void _create(Request& r, MethodParams& params) { const String& class_name=params.as_string(0, "class_name must be string"); Value* class_value=r.get_class(class_name); if(!class_value) throw Exception(PARSER_RUNTIME, &class_name, "class is undefined"); const String& constructor_name=params.as_string(1, "constructor_name must be string"); Value* constructor_value=class_value->get_element(constructor_name); if(!constructor_value || !constructor_value->get_junction()) throw Exception(PARSER_RUNTIME, &constructor_name, "constructor must be declared in class '%s'", class_value->get_class()->name_cstr()); Junction* junction=constructor_value->get_junction(); const Method* method=junction->method; int nparams=params.count()-2; int max_params_count; if(method->native_code){ if(method->call_type==Method::CT_STATIC) throw Exception(PARSER_RUNTIME, &constructor_name, "native method of class '%s' (%s) is not allowed to be called dynamically", class_value->get_class()->name_cstr(), class_value->type()); if(nparamsmin_numbered_params_count) throw Exception(PARSER_RUNTIME, &constructor_name, "native method of class '%s' (%s) accepts minimum %d parameter(s) (%d passed)", class_value->get_class()->name_cstr(), class_value->type(), method->min_numbered_params_count, nparams); max_params_count=method->max_numbered_params_count; } else { max_params_count=method->params_names?method->params_names->count():0; } if(nparams>max_params_count) throw Exception(PARSER_RUNTIME, &constructor_name, "method of class '%s' (%s) accepts maximum %d parameter(s) (%d passed)", class_value->get_class()->name_cstr(), class_value->type(), max_params_count, nparams); Value &object = r.construct(*class_value, *method); VConstructorFrame frame(*method, r.get_method_frame(), object); Value* v[100]; if(nparams>0){ for(int i=0; iget_class()) v=new VString(class_type_methoded); else v=VVoid::get(); result->put(key, v); } static void _classes(Request& r, MethodParams&) { VHash& result=*new VHash; r.classes().for_each(store_vlass_info, result.get_hash()); r.write_no_lang(result); } static Value* get_class(Value* value){ if(VStateless_class* result=value->get_class()) return result; else // classes with fields only, like env & console return value; } static const String* get_class_name(Value* value){ if(VStateless_class* lclass=value->get_class()) return &lclass->name(); else // classes with fields only, like env & console return new String(value->type()); } static void _class(Request& r, MethodParams& params) { r.write_no_lang(*get_class(¶ms[0])); } static void _class_name(Request& r, MethodParams& params) { r.write_no_lang(*get_class_name(¶ms[0])); } static void _base(Request& r, MethodParams& params) { if(VStateless_class* lclass=params[0].get_class()) if(Value* base=lclass->base()){ r.write_no_lang(*get_class(base)); return; } // classes with fields only, like env & console or without base r.write_no_lang(*VVoid::get()); } static void _base_name(Request& r, MethodParams& params) { if(VStateless_class* lclass=params[0].get_class()) if(Value* base=lclass->base()) r.write_no_lang(*get_class_name(base)); } static void store_method_info( HashStringMethod::key_type key, HashStringMethod::value_type method, HashStringValue* result ) { result->put(key, new VString(method->native_code?method_type_native:method_type_parser)); } static void _methods(Request& r, MethodParams& params) { const String& class_name=params.as_string(0, "class_name must be string"); Value* class_value=r.get_class(class_name); if(!class_value) throw Exception(PARSER_RUNTIME, &class_name, "class is undefined"); VHash& result=*new VHash; if(VStateless_class* lclass=class_value->get_class()){ HashStringMethod methods=lclass->get_methods(); methods.for_each(store_method_info, result.get_hash()); } else { // class which does not have methods (env, console, etc) } r.write_no_lang(result); } static void _fields(Request& r, MethodParams& params) { if(HashStringValue* fields=params[0].get_fields()){ VHash& result=*new VHash(*fields); r.write_no_lang(result); } else r.write_no_lang(*new VHash()); } static void _method_info(Request& r, MethodParams& params) { const String& class_name=params.as_string(0, "class_name must be string"); Value* class_value=r.get_class(class_name); if(!class_value) throw Exception(PARSER_RUNTIME, &class_name, "class is undefined"); VStateless_class* lclass=class_value->get_class(); if(!lclass) throw Exception(PARSER_RUNTIME, &class_name, "class does not have methods"); const String& method_name=params.as_string(1, "method_name must be string"); Method* method=lclass->get_method(method_name); if(!method) throw Exception(PARSER_RUNTIME, &method_name, "method not found in class %s", class_name.cstr()); VHash& result=*new VHash; HashStringValue* hash=result.get_hash(); VStateless_class* c=lclass; Method* base_method; if(c->base() && (base_method=c->base()->get_method(method_name))){ c=c->base()->get_class(); while(c->base() && base_method==c->base()->get_method(method_name)) c=c->base()->get_class(); hash->put((base_method==method) ? method_inherited : method_overridden, new VString(c->name())); } if(method->native_code){ // native code hash->put(method_min_params, new VInt(method->min_numbered_params_count)); hash->put(method_max_params, new VInt(method->max_numbered_params_count)); Value* call_type=0; switch(method->call_type){ case Method::CT_DYNAMIC: call_type=new VString(method_call_type_dynamic); break; case Method::CT_STATIC: call_type=new VString(method_call_type_static); break; } if(call_type) hash->put(method_call_type, call_type); } else { // parser code const String* filespec = r.get_method_filename(method); if( filespec ) hash->put("file", new VString(*filespec)); if(method->params_names) for(size_t i=0; iparams_names->count(); i++) hash->put(String::Body::Format(i), new VString(*method->params_names->get(i))); } r.write_no_lang(result); } static void _dynamical(Request& r, MethodParams& params) { if(params.count()){ r.write_no_lang(VBool::get(params[0].get_class() != ¶ms[0])); } else { VMethodFrame* caller=r.get_method_frame()->caller(); r.write_no_lang(VBool::get(caller && caller->get_class() != &caller->self())); } } static void _copy(Request& r, MethodParams& params) { HashStringValue* src=params.as_no_junction(0, "source must not be code").get_hash(); if(src==NULL) throw Exception(PARSER_RUNTIME, 0, "source must have hash representation"); Value& dst=params.as_no_junction(1, "destination must not be code"); for(HashStringValue::Iterator i(*src); i; i.next()) r.put_element(dst, *new String(i.key(), String::L_TAINTED), i.value()); } static void _uid(Request& r, MethodParams& params) { Value& obj=params.as_no_junction(0, "object must not be code"); char local_buf[MAX_NUMBER]; int size=snprintf(local_buf, sizeof(local_buf), "%p", &obj); r.write_pass_lang(*new String(pa_strdup(local_buf, (size_t)size), String::L_CLEAN, size)); } static void _delete(Request& r, MethodParams& params) { const String& key=params.as_string(1, "field name must be string"); if(HashStringValue* fields=params[0].get_fields()){ fields->remove(key); } } // constructor MReflection::MReflection(): Methoded("reflection") { // ^reflection:create[class_name;constructor_name[;param1[;param2[;...]]]] add_native_method("create", Method::CT_STATIC, _create, 2, 102); // ^reflection:classes[] add_native_method("classes", Method::CT_STATIC, _classes, 0, 0); // ^reflection:class[object] add_native_method("class", Method::CT_STATIC, _class, 1, 1); // ^reflection:class_name[object] add_native_method("class_name", Method::CT_STATIC, _class_name, 1, 1); // ^reflection:base_class[object] add_native_method("base", Method::CT_STATIC, _base, 1, 1); // ^reflection:base_class_name[object] add_native_method("base_name", Method::CT_STATIC, _base_name, 1, 1); // ^reflection:methods[class_name] add_native_method("methods", Method::CT_STATIC, _methods, 1, 1); // ^reflection:fields[object or class] add_native_method("fields", Method::CT_STATIC, _fields, 1, 1); // ^reflection:method_info[class_name;method_name] add_native_method("method_info", Method::CT_STATIC, _method_info, 2, 2); // ^reflection:dynamical[[object or class, caller if absent]] add_native_method("dynamical", Method::CT_STATIC, _dynamical, 0, 1); // ^reflection:copy[src;dst] add_native_method("copy", Method::CT_STATIC, _copy, 2, 2); // ^reflection:uid[object or class] add_native_method("uid", Method::CT_STATIC, _uid, 1, 1); // ^reflection:delete[object or class;field_name] add_native_method("delete", Method::CT_STATIC, _delete, 2, 2); }