/** @file Parser: executor part of request class. Copyright (c) 2001-2017 Art. Lebedev Studio (http://www.artlebedev.com) Author: Alexandr Petrosian (http://paf.design.ru) */ #include "pa_opcode.h" #include "pa_array.h" #include "pa_request.h" #include "pa_vstring.h" #include "pa_vhash.h" #include "pa_vvoid.h" #include "pa_vcode_frame.h" #include "pa_vmethod_frame.h" #include "pa_vobject.h" #include "pa_vdouble.h" #include "pa_vbool.h" #include "pa_vtable.h" #include "pa_vfile.h" #include "pa_vimage.h" #include "pa_wwrapper.h" volatile const char * IDENT_EXECUTE_C="$Id: execute.C,v 1.406 2018/02/02 22:59:55 moko Exp $" IDENT_PA_OPCODE_H IDENT_PA_OPERATION_H IDENT_PA_VCODE_FRAME_H IDENT_PA_WWRAPPER_H; //#define DEBUG_EXECUTE #ifdef DEBUG_EXECUTE const char *opcode_name[]={ // literals "VALUE", "CURLY_CODE__STORE_PARAM", "EXPR_CODE__STORE_PARAM", "NESTED_CODE", // actions "WITH_ROOT", "WITH_SELF", "WITH_READ", "WITH_WRITE", "VALUE__GET_CLASS", "VALUE__GET_BASE_CLASS", "CONSTRUCT_VALUE", "CONSTRUCT_EXPR", "CURLY_CODE__CONSTRUCT", "WRITE_VALUE", "WRITE_EXPR_RESULT", "STRING__WRITE", #ifdef OPTIMIZE_BYTECODE_GET_ELEMENT "VALUE__GET_ELEMENT_OR_OPERATOR", #else "GET_ELEMENT_OR_OPERATOR", #endif "GET_ELEMENT", "GET_ELEMENT__WRITE", #ifdef OPTIMIZE_BYTECODE_GET_ELEMENT "VALUE__GET_ELEMENT", "VALUE__GET_ELEMENT__WRITE", "WITH_ROOT__VALUE__GET_ELEMENT", #endif #ifdef OPTIMIZE_BYTECODE_GET_OBJECT_ELEMENT "GET_OBJECT_ELEMENT", "GET_OBJECT_ELEMENT__WRITE", #endif #ifdef OPTIMIZE_BYTECODE_GET_OBJECT_VAR_ELEMENT "GET_OBJECT_VAR_ELEMENT", "GET_OBJECT_VAR_ELEMENT__WRITE", #endif #ifdef OPTIMIZE_BYTECODE_GET_SELF_ELEMENT "WITH_SELF__VALUE__GET_ELEMENT", "WITH_SELF__VALUE__GET_ELEMENT__WRITE", #endif #ifdef FEATURE_GET_ELEMENT4CALL "GET_ELEMENT4CALL", #ifdef OPTIMIZE_BYTECODE_GET_OBJECT_ELEMENT "GET_OBJECT_ELEMENT4CALL", #endif #ifdef OPTIMIZE_BYTECODE_GET_OBJECT_VAR_ELEMENT "GET_OBJECT_VAR_ELEMENT4CALL", #endif #endif // FEATURE_GET_ELEMENT4CALL "OBJECT_POOL", "STRING_POOL", "PREPARE_TO_CONSTRUCT_OBJECT", "CONSTRUCT_OBJECT", "CONSTRUCT_OBJECT__WRITE", "CALL", "CALL__WRITE", #ifdef OPTIMIZE_BYTECODE_CONSTRUCT "WITH_ROOT__VALUE__CONSTRUCT_EXPR", "WITH_ROOT__VALUE__CONSTRUCT_VALUE", "WITH_WRITE__VALUE__CONSTRUCT_EXPR", "WITH_WRITE__VALUE__CONSTRUCT_VALUE", "WITH_SELF__VALUE__CONSTRUCT_EXPR", "WITH_SELF__VALUE__CONSTRUCT_VALUE", #endif #ifdef OPTIMIZE_BYTECODE_GET_ELEMENT__SPECIAL "GET_ELEMENT__SPECIAL", "GET_ELEMENT__SPECIAL__WRITE", #endif // expression ops: unary "NEG", "INV", "NOT", "DEF", "IN", "FEXISTS", "DEXISTS", // expression ops: binary "SUB", "ADD", "MUL", "DIV", "MOD", "INTDIV", "BIN_SL", "BIN_SR", "BIN_AND", "BIN_OR", "BIN_XOR", "LOG_AND", "LOG_OR", "LOG_XOR", "NUM_LT", "NUM_GT", "NUM_LE", "NUM_GE", "NUM_EQ", "NUM_NE", "STR_LT", "STR_GT", "STR_LE", "STR_GE", "STR_EQ", "STR_NE", "IS" }; const char* debug_value_to_cstr(Value& value){ const String* string=value.get_string(); if(string) return string->cstr(); else if(value.is_bool()) return value.as_bool() ? "" : ""; else return ""; } void va_debug_printf(SAPI_Info& sapi_info, const char* fmt,va_list args) { char buf[MAX_STRING]; vsnprintf(buf, MAX_STRING, fmt, args); SAPI::log(sapi_info, "%s", buf); } void debug_printf(SAPI_Info& sapi_info, const char* fmt, ...) { va_list args; va_start(args, fmt); va_debug_printf(sapi_info, fmt, args); va_end(args); } void debug_dump(SAPI_Info& sapi_info, int level, ArrayOperation& ops) { Array_iterator i(ops); while(i.has_next()) { OP::OPCODE opcode=i.next().code; #if defined(OPTIMIZE_BYTECODE_GET_OBJECT_ELEMENT) || defined(OPTIMIZE_BYTECODE_GET_OBJECT_VAR_ELEMENT) if( 1==0 #ifdef OPTIMIZE_BYTECODE_GET_OBJECT_ELEMENT || opcode==OP::OP_GET_OBJECT_ELEMENT || opcode==OP::OP_GET_OBJECT_ELEMENT__WRITE #ifdef FEATURE_GET_ELEMENT4CALL || opcode==OP::OP_GET_OBJECT_ELEMENT4CALL #endif #endif #ifdef OPTIMIZE_BYTECODE_GET_OBJECT_VAR_ELEMENT || opcode==OP::OP_GET_OBJECT_VAR_ELEMENT || opcode==OP::OP_GET_OBJECT_VAR_ELEMENT__WRITE #ifdef FEATURE_GET_ELEMENT4CALL || opcode==OP::OP_GET_OBJECT_VAR_ELEMENT4CALL #endif #endif ){ i.next(); // skip origin Value& value1=*i.next().value; i.next(); // skip origin Value& value2=*i.next().value; debug_printf(sapi_info, "%*s%s \"%s\" \"%s\"", level*4, "", opcode_name[opcode], debug_value_to_cstr(value1), debug_value_to_cstr(value2)); continue; } #endif if( opcode==OP::OP_CONSTRUCT_OBJECT || opcode==OP::OP_CONSTRUCT_OBJECT__WRITE ){ i.next(); // skip origin Value& value1=*i.next().value; i.next(); // skip origin Value& value2=*i.next().value; debug_printf(sapi_info, "%*s%s" " \"%s\" \"%s\"", level*4, "", opcode_name[opcode], debug_value_to_cstr(value1), debug_value_to_cstr(value2)); if(ArrayOperation* local_ops=i.next().ops) debug_dump(sapi_info, level+1, *local_ops); continue; } if( opcode==OP::OP_VALUE || opcode==OP::OP_STRING__WRITE || opcode==OP::OP_VALUE__GET_CLASS || opcode==OP::OP_VALUE__GET_BASE_CLASS #ifdef OPTIMIZE_BYTECODE_GET_ELEMENT || opcode==OP::OP_VALUE__GET_ELEMENT || opcode==OP::OP_VALUE__GET_ELEMENT__WRITE || opcode==OP::OP_VALUE__GET_ELEMENT_OR_OPERATOR || opcode==OP::OP_WITH_ROOT__VALUE__GET_ELEMENT #endif #ifdef OPTIMIZE_BYTECODE_GET_SELF_ELEMENT || opcode==OP::OP_WITH_SELF__VALUE__GET_ELEMENT || opcode==OP::OP_WITH_SELF__VALUE__GET_ELEMENT__WRITE #endif #ifdef OPTIMIZE_BYTECODE_CONSTRUCT || opcode==OP::OP_WITH_ROOT__VALUE__CONSTRUCT_EXPR || opcode==OP::OP_WITH_ROOT__VALUE__CONSTRUCT_VALUE || opcode==OP::OP_WITH_WRITE__VALUE__CONSTRUCT_EXPR || opcode==OP::OP_WITH_WRITE__VALUE__CONSTRUCT_VALUE || opcode==OP::OP_WITH_SELF__VALUE__CONSTRUCT_EXPR || opcode==OP::OP_WITH_SELF__VALUE__CONSTRUCT_VALUE #endif ) { Operation::Origin origin=i.next().origin; Value& value=*i.next().value; debug_printf(sapi_info, "%*s%s" " \"%s\" %s", level*4, "", opcode_name[opcode], debug_value_to_cstr(value), value.type()); continue; } debug_printf(sapi_info, "%*s%s", level*4, "", opcode_name[opcode]); switch(opcode) { case OP::OP_CURLY_CODE__STORE_PARAM: case OP::OP_EXPR_CODE__STORE_PARAM: case OP::OP_CURLY_CODE__CONSTRUCT: case OP::OP_NESTED_CODE: case OP::OP_OBJECT_POOL: case OP::OP_STRING_POOL: case OP::OP_CALL: case OP::OP_CALL__WRITE: if(ArrayOperation* local_ops=i.next().ops) debug_dump(sapi_info, level+1, *local_ops); } } } #define DEBUG_PRINT_STR(str) debug_printf(sapi_info, str); #define DEBUG_PRINT_STRING(value) debug_printf(sapi_info, " \"%s\" ", value.cstr()); #define DEBUG_PRINT_VALUE_AND_TYPE(value) debug_printf(sapi_info, " \"%s\" %s", debug_value_to_cstr(value), value.type()); #define DEBUG_PRINT_OPS(local_ops) \ debug_printf(sapi_info, \ " (%d)\n", local_ops?local_ops->count():0); \ if(local_ops) debug_dump(sapi_info, 1, *local_ops); #else #define DEBUG_PRINT_STR(str) #define DEBUG_PRINT_STRING(value) #define DEBUG_PRINT_VALUE_AND_TYPE(value) #define DEBUG_PRINT_OPS(local_ops) #endif // Request void Request::execute(ArrayOperation& ops) { register Stack& stack=this->stack; // helps a lot on MSVC: 'esi' const String* debug_name=0; Operation::Origin debug_origin={0, 0, 0}; try{ #ifdef DEBUG_EXECUTE debug_printf(sapi_info, "source----------------------------\n"); debug_dump(sapi_info, 0, ops); debug_printf(sapi_info, "execution-------------------------\n"); #endif for(Array_iterator i(ops); i.has_next(); ) { OP::OPCODE opcode=i.next().code; #ifdef DEBUG_EXECUTE debug_printf(sapi_info, "%d:%s", stack.top_index()+1, opcode_name[opcode]); #endif switch(opcode) { // param in next instruction case OP::OP_VALUE: { debug_origin=i.next().origin; Value& value=*i.next().value; DEBUG_PRINT_VALUE_AND_TYPE(value) stack.push(value); break; } case OP::OP_VALUE__GET_CLASS: { debug_origin=i.next().origin; const String& name=*i.next().value->get_string(); debug_name=&name; DEBUG_PRINT_STRING(name) VStateless_class* vclass=get_class(name); if(!vclass) throw Exception(PARSER_RUNTIME, &name, "class is undefined"); stack.push(*vclass); break; } case OP::OP_VALUE__GET_BASE_CLASS: { // ^class:method[] call debug_origin=i.next().origin; const String& name=*i.next().value->get_string(); debug_name=&name; DEBUG_PRINT_STRING(name) VStateless_class* vclass=get_class(name); if(!vclass) throw Exception(PARSER_RUNTIME, &name, "class is undefined"); stack.push(*new VBaseClassWrapper(*vclass, get_self())); break; } #ifdef OPTIMIZE_BYTECODE_GET_ELEMENT__SPECIAL case OP::OP_GET_ELEMENT__SPECIAL: case OP::OP_GET_ELEMENT__SPECIAL__WRITE: { const String& name=stack.pop().string(); debug_name=&name; Value& ncontext=stack.pop().value(); Value* value=0; if(VStateless_class* vclass=ncontext.get_class()){ if(SYMBOLS_EQ(name,CLASS_SYMBOL)){ value=vclass; } else if(SYMBOLS_EQ(name,CLASS_NAME_SYMBOL)){ value=new VString(*new String(vclass->type())); } } else { // VJunction is without class, returning self if(SYMBOLS_EQ(name,CLASS_SYMBOL)){ value=&ncontext; } else if(SYMBOLS_EQ(name,CLASS_NAME_SYMBOL)){ value=new VString(*new String(ncontext.type())); } } if(opcode==OP::OP_GET_ELEMENT__SPECIAL){ stack.push(*value); } else { write(*value); } break; } #endif // OP_WITH case OP::OP_WITH_ROOT: { stack.push(*method_frame); break; } case OP::OP_WITH_SELF: { stack.push(get_self()); break; } case OP::OP_WITH_READ: { stack.push(*rcontext); break; } case OP::OP_WITH_WRITE: { if(wcontext==method_frame) throw Exception(PARSER_RUNTIME, 0, "$.name outside of $name[...]"); stack.push(*wcontext); break; } // OTHER ACTIONS BUT WITHs #ifdef OPTIMIZE_BYTECODE_CONSTRUCT #define DO_CONSTRUCT(context, vvalue) { \ debug_origin=i.next().origin; \ const String& name=*i.next().value->get_string(); debug_name=&name; \ DEBUG_PRINT_STRING(name) \ Value& value=stack.pop().value(); \ put_element( context, name, vvalue ); \ goto check_skip; \ } #define DO_CONSTRUCT_VALUE(context) DO_CONSTRUCT(context, &value) #define DO_CONSTRUCT_EXPR(context) { \ DO_CONSTRUCT(context, &value.as_expr_result()) \ } case OP::OP_WITH_WRITE__VALUE__CONSTRUCT_EXPR: { if(wcontext==method_frame) throw Exception(PARSER_RUNTIME, 0, "$.name outside of $name[...]"); DO_CONSTRUCT_EXPR(*wcontext) } case OP::OP_WITH_WRITE__VALUE__CONSTRUCT_VALUE: { if(wcontext==method_frame) throw Exception(PARSER_RUNTIME, 0, "$.name outside of $name[...]"); DO_CONSTRUCT_VALUE(*wcontext) } case OP::OP_WITH_ROOT__VALUE__CONSTRUCT_EXPR: DO_CONSTRUCT_EXPR(*method_frame) case OP::OP_WITH_ROOT__VALUE__CONSTRUCT_VALUE: DO_CONSTRUCT_VALUE(*method_frame) case OP::OP_WITH_SELF__VALUE__CONSTRUCT_EXPR: DO_CONSTRUCT_EXPR(get_self()) case OP::OP_WITH_SELF__VALUE__CONSTRUCT_VALUE: DO_CONSTRUCT_VALUE(get_self()) #endif // OPTIMIZE_BYTECODE_CONSTRUCT case OP::OP_CONSTRUCT_VALUE: { #ifdef OPTIMIZE_BYTECODE_CONSTRUCT const String& name=stack.pop().string(); debug_name=&name; Value& ncontext=stack.pop().value(); Value& value=stack.pop().value(); #else Value& value=stack.pop().value(); const String& name=stack.pop().string(); debug_name=&name; Value& ncontext=stack.pop().value(); #endif put_element(ncontext, name, &value); goto check_skip; } case OP::OP_CONSTRUCT_EXPR: { #ifdef OPTIMIZE_BYTECODE_CONSTRUCT const String& name=stack.pop().string(); debug_name=&name; Value& ncontext=stack.pop().value(); Value& expr=stack.pop().value(); #else Value& expr=stack.pop().value(); const String& name=stack.pop().string(); debug_name=&name; Value& ncontext=stack.pop().value(); #endif Value& value=expr.as_expr_result(); put_element(ncontext, name, &value); goto check_skip; } case OP::OP_CURLY_CODE__CONSTRUCT: { ArrayOperation& local_ops=*i.next().ops; DEBUG_PRINT_OPS((&local_ops)) VJunction& value=*new VJunction( get_self(), 0, method_frame, rcontext, wcontext, &local_ops); wcontext->attach_junction(&value); const String& name=stack.pop().string(); debug_name=&name; Value& ncontext=stack.pop().value(); if(const VJunction* vjunction=ncontext.put_element(name, &value)) if(vjunction!=PUT_ELEMENT_REPLACED_ELEMENT) throw Exception(PARSER_RUNTIME, 0, "property value can not be code, use [] or () brackets"); break; } case OP::OP_NESTED_CODE: { ArrayOperation& local_ops=*i.next().ops; DEBUG_PRINT_OPS((&local_ops)) stack.push(local_ops); break; } case OP::OP_WRITE_VALUE: { Value& value=stack.pop().value(); write(value); break; } case OP::OP_WRITE_EXPR_RESULT: { Value& value=stack.pop().value(); wcontext->write(value.as_expr_result()); break; } case OP::OP_STRING__WRITE: { i.next(); // ignore origin Value* value=i.next().value; const String& string_value=*value->get_string(); DEBUG_PRINT_STRING(string_value) write(string_value); break; } #ifdef OPTIMIZE_BYTECODE_GET_ELEMENT case OP::OP_VALUE__GET_ELEMENT_OR_OPERATOR: { debug_origin=i.next().origin; const String& name=*i.next().value->get_string(); debug_name=&name; DEBUG_PRINT_STRING(name) if(Method* method=main_class.get_method(name)){ // looking operator of that name FIRST if(!method->junction_template) method->junction_template=new VJunction(main_class, method); stack.push(*method->junction_template); break; } Value& value=get_element(*rcontext, name); stack.push(value); goto check_skip; } #else case OP::OP_GET_ELEMENT_OR_OPERATOR: { const String& name=stack.pop().string(); debug_name=&name; Value& ncontext=stack.pop().value(); if(Method* method=main_class.get_method(name)){ // looking operator of that name FIRST if(!method->junction_template) method->junction_template=new VJunction(main_class, method); stack.push(*method->junction_template); break; } Value& value=get_element(ncontext, name); stack.push(value); goto check_skip; } #endif #ifdef OPTIMIZE_BYTECODE_GET_OBJECT_ELEMENT #define DO_GET_OBJECT_ELEMENT(code) {\ debug_origin=i.next().origin; \ const String& context_name=*i.next().value->get_string(); debug_name=&context_name; \ DEBUG_PRINT_STRING(context_name) \ Value& object=get_element(*rcontext, context_name); \ debug_origin=i.next().origin; \ const String& field_name=*i.next().value->get_string(); debug_name=&field_name; \ DEBUG_PRINT_STRING(field_name) \ code; \ goto check_skip; \ } case OP::OP_GET_OBJECT_ELEMENT: DO_GET_OBJECT_ELEMENT({ Value& value=get_element(object, field_name); stack.push(value); }) case OP::OP_GET_OBJECT_ELEMENT__WRITE: DO_GET_OBJECT_ELEMENT({ Value& value=get_element(object, field_name); write(value); }) #ifdef FEATURE_GET_ELEMENT4CALL case OP::OP_GET_OBJECT_ELEMENT4CALL: DO_GET_OBJECT_ELEMENT({ Value& value=get_element4call(object, field_name); stack.push(value); }) #endif #endif #ifdef OPTIMIZE_BYTECODE_GET_OBJECT_VAR_ELEMENT #define DO_GET_OBJECT_VAR_ELEMENT(code) {\ debug_origin=i.next().origin; \ const String& context_name=*i.next().value->get_string(); debug_name=&context_name; \ DEBUG_PRINT_STRING(context_name) \ Value& object=get_element(*rcontext, context_name); \ debug_origin=i.next().origin; \ const String& var_name=*i.next().value->get_string(); debug_name=&var_name; \ DEBUG_PRINT_STRING(var_name) \ const String* field=&get_element(*rcontext, var_name).as_string(); \ code; \ goto check_skip; \ } case OP::OP_GET_OBJECT_VAR_ELEMENT: DO_GET_OBJECT_VAR_ELEMENT({ Value& value=get_element(object, *field); stack.push(value); }) case OP::OP_GET_OBJECT_VAR_ELEMENT__WRITE: DO_GET_OBJECT_VAR_ELEMENT({ Value& value=get_element(object, *field); write(value); }) #ifdef FEATURE_GET_ELEMENT4CALL case OP::OP_GET_OBJECT_VAR_ELEMENT4CALL: DO_GET_OBJECT_VAR_ELEMENT({ Value& value=get_element4call(object, *field); stack.push(value); }) #endif #endif case OP::OP_GET_ELEMENT: { const String& name=stack.pop().string(); debug_name=&name; Value& ncontext=stack.pop().value(); Value& value=get_element(ncontext, name); stack.push(value); goto check_skip; } #ifdef FEATURE_GET_ELEMENT4CALL case OP::OP_GET_ELEMENT4CALL: { const String& name=stack.pop().string(); debug_name=&name; Value& ncontext=stack.pop().value(); Value& value=get_element4call(ncontext, name); stack.push(value); goto check_skip; } #endif case OP::OP_GET_ELEMENT__WRITE: { const String& name=stack.pop().string(); debug_name=&name; Value& ncontext=stack.pop().value(); Value& value=get_element(ncontext, name); write(value); goto check_skip; } #ifdef OPTIMIZE_BYTECODE_GET_ELEMENT case OP::OP_VALUE__GET_ELEMENT: { debug_origin=i.next().origin; const String& name=*i.next().value->get_string(); debug_name=&name; DEBUG_PRINT_STRING(name) Value& value=get_element(*rcontext, name); stack.push(value); goto check_skip; } case OP::OP_VALUE__GET_ELEMENT__WRITE: { debug_origin=i.next().origin; const String& name=*i.next().value->get_string(); debug_name=&name; DEBUG_PRINT_STRING(name) Value& value=get_element(*rcontext, name); write(value); goto check_skip; } case OP::OP_WITH_ROOT__VALUE__GET_ELEMENT: { debug_origin=i.next().origin; const String& name=*i.next().value->get_string(); debug_name=&name; DEBUG_PRINT_STRING(name) Value& value=get_element(*method_frame, name); stack.push(value); goto check_skip; } #endif #ifdef OPTIMIZE_BYTECODE_GET_SELF_ELEMENT case OP::OP_WITH_SELF__VALUE__GET_ELEMENT: case OP::OP_WITH_SELF__VALUE__GET_ELEMENT__WRITE: { debug_origin=i.next().origin; const String& name=*i.next().value->get_string(); debug_name=&name; DEBUG_PRINT_STRING(name) Value& value=get_element(get_self(), name); if(opcode==OP::OP_WITH_SELF__VALUE__GET_ELEMENT){ stack.push(value); } else { write(value); } goto check_skip; } #endif case OP::OP_OBJECT_POOL: { debug_name=0; ArrayOperation& local_ops=*i.next().ops; WContext *saved_wcontext=wcontext; #ifdef OPTIMIZE_SINGLE_STRING_WRITE WObjectPoolWrapper local(wcontext); #else WWrapper local(wcontext); #endif wcontext=&local; execute(local_ops); stack.push((Value&)wcontext->result()); wcontext=saved_wcontext; goto check_skip; } case OP::OP_STRING_POOL: { ArrayOperation& local_ops=*i.next().ops; WContext *saved_wcontext=wcontext; WWrapper local(wcontext); wcontext=&local; execute(local_ops); // from "$a $b" part of expression taking only string value, // ignoring any other content of wcontext const String* string=wcontext->get_string(); Value* value=string ? new VString(*string) : new VString(); stack.push(*value); wcontext=saved_wcontext; goto check_skip; } // CALL case OP::OP_CURLY_CODE__STORE_PARAM: case OP::OP_EXPR_CODE__STORE_PARAM: { // code ArrayOperation& local_ops=*i.next().ops; DEBUG_PRINT_OPS((&local_ops)) // when they evaluate expression parameter, // the object expression result // does not need to be written into calling frame // it must go into any expressions using that parameter // hence, we zero junction.wcontext here, and later // in .process we would test that field // in decision "which wwrapper to use" VJunction& value=*new VJunction( get_self(), 0, method_frame, rcontext, opcode==OP::OP_EXPR_CODE__STORE_PARAM?0:wcontext, &local_ops); #ifndef USE_DESTRUCTORS if (opcode!=OP::OP_EXPR_CODE__STORE_PARAM) wcontext->attach_junction(&value); #endif // store param stack.push(value); break; } #define METHOD_PARAMS_ACTION(action) \ if(local_ops){ \ size_t first = stack.top_index(); \ execute(*local_ops); \ if(!fskip){ \ frame.store_params((Value**)stack.ptr(first), stack.top_index()-first); \ action; \ } \ stack.set_top_index(first); \ } else { \ frame.empty_params(); \ action; \ } case OP::OP_CALL: { ArrayOperation* local_ops=i.next().ops; DEBUG_PRINT_OPS(local_ops) DEBUG_PRINT_STR("->\n") Value& value=stack.pop().value(); Junction* junction=value.get_junction(); if(!junction) { if(value.is("void")) throw Exception(PARSER_RUNTIME, 0, "undefined method"); else throw Exception(PARSER_RUNTIME, 0, "is '%s', not a method or junction, can not call it", value.type()); } Value *result; { EXPRESSION_FRAME_ACTION(*junction->method, method_frame, junction->self, { METHOD_PARAMS_ACTION(call(frame)); result=&frame.result(); // desctructor deletes junctions in stack params here }); } stack.push(*result); DEBUG_PRINT_STR("<-returned") goto check_skip; } case OP::OP_CALL__WRITE: { ArrayOperation* local_ops=i.next().ops; DEBUG_PRINT_OPS(local_ops) DEBUG_PRINT_STR("->\n") Value& value=stack.pop().value(); Junction* junction=value.get_junction(); if(!junction) { if(value.is("void")) throw Exception(PARSER_RUNTIME, 0, "undefined method"); else throw Exception(PARSER_RUNTIME, 0, "is '%s', not a method or junction, can not call it", value.type()); } const Method& method=*junction->method; #ifdef OPTIMIZE_CALL if(method.call_optimization==Method::CO_WITHOUT_FRAME){ if(local_ops){ // store param code goes here size_t first = stack.top_index(); execute(*local_ops); if(!fskip){ MethodParams method_params; method_params.store_params((Value**)stack.ptr(first), stack.top_index()-first); method.check_actual_numbered_params(junction->self, &method_params); method.native_code(*this, method_params); // execute it } stack.set_top_index(first); } else { MethodParams method_params; method.check_actual_numbered_params(junction->self, &method_params); method.native_code(*this, method_params); // execute it } } else if(method.call_optimization==Method::CO_WITHOUT_WCONTEXT){ METHOD_FRAME_ACTION(method, method_frame, junction->self, { METHOD_PARAMS_ACTION(call_write(frame)) }); } else #endif // OPTIMIZE_CALL { METHOD_FRAME_ACTION(method, method_frame, junction->self, { METHOD_PARAMS_ACTION(call(frame)); write(frame.result()); }); } DEBUG_PRINT_STR("<-returned") goto check_skip; } case OP::OP_CONSTRUCT_OBJECT: case OP::OP_CONSTRUCT_OBJECT__WRITE: { debug_origin=i.next().origin; Value& vclass_name=*i.next().value; const String& class_name=*vclass_name.get_string(); debug_name=&class_name; DEBUG_PRINT_STRING(class_name) VStateless_class* vclass=get_class(class_name); if(!vclass) throw Exception(PARSER_RUNTIME, &class_name, "class is undefined"); debug_origin=i.next().origin; Value& vconstructor_name=*i.next().value; const String& constructor_name=*vconstructor_name.get_string(); debug_name=&constructor_name; DEBUG_PRINT_STRING(constructor_name) Junction* constructor_junction=get_element(*vclass, constructor_name).get_junction(); if(!constructor_junction) throw Exception(PARSER_RUNTIME, &constructor_name, "constructor must be declared in class '%s'", vclass->type()); ArrayOperation* local_ops=i.next().ops; DEBUG_PRINT_OPS(local_ops) DEBUG_PRINT_STR("->\n") Value *result; { Value& object=construct(*vclass, *constructor_junction->method); CONSTRUCTOR_FRAME_ACTION(*constructor_junction->method, method_frame, object, { METHOD_PARAMS_ACTION(call(frame)); object.enable_default_setter(); result=&frame.result(); // desctructor deletes junctions in stack params here }); } if(opcode==OP::OP_CONSTRUCT_OBJECT) stack.push(*result); else write(*result); DEBUG_PRINT_STR("<-returned") goto check_skip; } // expression ops: unary case OP::OP_NEG: { Value& a=stack.pop().value(); Value& value=*new VDouble(-a.as_double()); stack.push(value); break; } case OP::OP_INV: { Value& a=stack.pop().value(); Value& value=*new VDouble(~a.as_int()); stack.push(value); break; } case OP::OP_NOT: { Value& a=stack.pop().value(); Value& value=VBool::get(!a.as_bool()); stack.push(value); break; } case OP::OP_DEF: { Value& a=stack.pop().value(); Value& value=VBool::get(a.is_defined()); stack.push(value); break; } case OP::OP_IN: { Value& a=stack.pop().value(); const String& path=a.as_string(); Value& value=VBool::get(request_info.uri && *request_info.uri && path.this_starts(request_info.uri)); stack.push(value); break; } case OP::OP_FEXISTS: { Value& a=stack.pop().value(); Value& value=VBool::get(file_exist(absolute(a.as_string()))); stack.push(value); break; } case OP::OP_DEXISTS: { Value& a=stack.pop().value(); Value& value=VBool::get(dir_exists(absolute(a.as_string()))); stack.push(value); break; } // expression ops: binary case OP::OP_SUB: { Value& b=stack.pop().value(); Value& a=stack.pop().value(); Value& value=*new VDouble(a.as_double() - b.as_double()); stack.push(value); break; } case OP::OP_ADD: { Value& b=stack.pop().value(); Value& a=stack.pop().value(); Value& value=*new VDouble(a.as_double() + b.as_double()); stack.push(value); break; } case OP::OP_MUL: { Value& b=stack.pop().value(); Value& a=stack.pop().value(); Value& value=*new VDouble(a.as_double() * b.as_double()); stack.push(value); break; } case OP::OP_DIV: { Value& b=stack.pop().value(); Value& a=stack.pop().value(); double a_double=a.as_double(); double b_double=b.as_double(); if(b_double == 0) { //const String* problem_source=b.as_string(); throw Exception("number.zerodivision", 0, "Division by zero"); } Value& value=*new VDouble(a_double / b_double); stack.push(value); break; } case OP::OP_MOD: { Value& b=stack.pop().value(); Value& a=stack.pop().value(); double a_double=a.as_double(); double b_double=b.as_double(); if(b_double == 0) { //const String* problem_source=b.as_string(); throw Exception("number.zerodivision", 0, "Modulus by zero"); } Value& value=*new VDouble(fmod(a_double, b_double)); stack.push(value); break; } case OP::OP_INTDIV: { Value& b=stack.pop().value(); Value& a=stack.pop().value(); int a_int=a.as_int(); int b_int=b.as_int(); if(b_int == 0) { //const String* problem_source=b.as_string(); throw Exception("number.zerodivision", 0, "Division by zero"); } Value& value=*new VInt(a_int / b_int); stack.push(value); break; } case OP::OP_BIN_SL: { Value& b=stack.pop().value(); Value& a=stack.pop().value(); Value& value=*new VInt( a.as_int() << b.as_int()); stack.push(value); break; } case OP::OP_BIN_SR: { Value& b=stack.pop().value(); Value& a=stack.pop().value(); Value& value=*new VInt( a.as_int() >> b.as_int()); stack.push(value); break; } case OP::OP_BIN_AND: { Value& b=stack.pop().value(); Value& a=stack.pop().value(); Value& value=*new VInt( a.as_int() & b.as_int()); stack.push(value); break; } case OP::OP_BIN_OR: { Value& b=stack.pop().value(); Value& a=stack.pop().value(); Value& value=*new VInt( a.as_int() | b.as_int()); stack.push(value); break; } case OP::OP_BIN_XOR: { Value& b=stack.pop().value(); Value& a=stack.pop().value(); Value& value=*new VInt( a.as_int() ^ b.as_int()); stack.push(value); break; } case OP::OP_LOG_AND: { ArrayOperation& local_ops=stack.pop().ops(); Value& a=stack.pop().value(); bool result; if(a.as_bool()) { execute(local_ops); Value& b=stack.pop().value(); result=b.as_bool(); } else result=false; Value& value=VBool::get(result); stack.push(value); goto check_skip; } case OP::OP_LOG_OR: { ArrayOperation& local_ops=stack.pop().ops(); Value& a=stack.pop().value(); bool result; if(a.as_bool()) result=true; else { execute(local_ops); Value& b=stack.pop().value(); result=b.as_bool(); } Value& value=VBool::get(result); stack.push(value); goto check_skip; } case OP::OP_LOG_XOR: { Value& b=stack.pop().value(); Value& a=stack.pop().value(); Value& value=VBool::get(a.as_bool() ^ b.as_bool()); stack.push(value); break; } case OP::OP_NUM_LT: { volatile double b_double=stack.pop().value().as_double(); volatile double a_double=stack.pop().value().as_double(); Value& value=VBool::get(a_doubleb_double); stack.push(value); break; } case OP::OP_NUM_LE: { volatile double b_double=stack.pop().value().as_double(); volatile double a_double=stack.pop().value().as_double(); Value& value=VBool::get(a_double<=b_double); stack.push(value); break; } case OP::OP_NUM_GE: { volatile double b_double=stack.pop().value().as_double(); volatile double a_double=stack.pop().value().as_double(); Value& value=VBool::get(a_double>=b_double); stack.push(value); break; } case OP::OP_NUM_EQ: { volatile double b_double=stack.pop().value().as_double(); volatile double a_double=stack.pop().value().as_double(); Value& value=VBool::get(a_double==b_double); stack.push(value); break; } case OP::OP_NUM_NE: { volatile double b_double=stack.pop().value().as_double(); volatile double a_double=stack.pop().value().as_double(); Value& value=VBool::get(a_double!=b_double); stack.push(value); break; } case OP::OP_STR_LT: { Value& b=stack.pop().value(); Value& a=stack.pop().value(); Value& value=VBool::get(a.as_string() < b.as_string()); stack.push(value); break; } case OP::OP_STR_GT: { Value& b=stack.pop().value(); Value& a=stack.pop().value(); Value& value=VBool::get(a.as_string() > b.as_string()); stack.push(value); break; } case OP::OP_STR_LE: { Value& b=stack.pop().value(); Value& a=stack.pop().value(); Value& value=VBool::get(a.as_string() <= b.as_string()); stack.push(value); break; } case OP::OP_STR_GE: { Value& b=stack.pop().value(); Value& a=stack.pop().value(); Value& value=VBool::get(a.as_string() >= b.as_string()); stack.push(value); break; } case OP::OP_STR_EQ: { Value& b=stack.pop().value(); Value& a=stack.pop().value(); Value& value=VBool::get(a.as_string() == b.as_string()); stack.push(value); break; } case OP::OP_STR_NE: { Value& b=stack.pop().value(); Value& a=stack.pop().value(); Value& value=VBool::get(a.as_string() != b.as_string()); stack.push(value); break; } case OP::OP_IS: { Value& b=stack.pop().value(); Value& a=stack.pop().value(); Value& value=VBool::get(a.is(b.as_string().cstr())); stack.push(value); break; } default: { throw Exception(0, 0, "invalid opcode %d", opcode); } check_skip: { if(fskip){ if(fskip==Request::SKIP_INTERRUPTED){ set_skip(Request::SKIP_NOTHING); throw Exception("parser.interrupted", 0, "execution stopped"); } return; } break; } } } } catch(const Exception&) { // record it to stack trace if(debug_name) exception_trace.push(Trace(debug_name, debug_origin)); rethrow; } } #define SAVE_CONTEXT \ VMethodFrame *saved_method_frame=method_frame; \ Value* saved_rcontext=rcontext; \ WContext *saved_wcontext=wcontext; #define RESTORE_CONTEXT \ wcontext=saved_wcontext; \ rcontext=saved_rcontext; \ method_frame=saved_method_frame; Value& Request::construct(VStateless_class &called_class, const Method &method){ if(method.call_type!=Method::CT_STATIC) { // this is a constructor call if(Value* result=called_class.create_new_value(fpool)) { // some stateless_class creatable derivates return *result; } else throw Exception(PARSER_RUNTIME, method.name, "is not a constructor, system class '%s' can be constructed only implicitly", called_class.type()); } else throw Exception(PARSER_RUNTIME, method.name, "method of '%s' is static and can not be used as constructor", called_class.type()); } Value& Request::get_element(Value& ncontext, const String& name) { Value* value=ncontext.get_element(name); return *(value ? &process(*value) : VVoid::get()); } #ifdef FEATURE_GET_ELEMENT4CALL Value& Request::get_element4call(Value& ncontext, const String& name) { Value* value=ncontext.get_element4call(name); return *(value ? &process(*value) : VVoid::get()); } #endif void Request::put_element(Value& ncontext, const String& name, Value* value) { // put_element can return property-setting-junction if(const VJunction* vjunction=ncontext.put_element(name, value)) if(vjunction!=PUT_ELEMENT_REPLACED_ELEMENT) { const Junction& junction = vjunction->junction(); int param_count=junction.method->params_count; if(junction.auto_name){ // default setter if(param_count!=2) throw Exception(PARSER_RUNTIME, 0, "default setter method must have TWO parameters (has %d parameters)", param_count); Value* params[2] = { new VString(*junction.auto_name), value }; CONSTRUCTOR_FRAME_ACTION(*junction.method, method_frame /*caller*/, junction.self, { frame.store_params(params, 2); Temp_disable_default_setter temp(junction.self); call(frame); }); } else { // setter if(param_count!=1) throw Exception(PARSER_RUNTIME, 0, "setter method must have ONE parameter (has %d parameters)", param_count); CONSTRUCTOR_FRAME_ACTION(*junction.method, method_frame /*caller*/, junction.self, { frame.store_params(&value, 1); call(frame); }); } } } Value& Request::process_getter(Junction& junction) { int param_count=junction.method->params_count; if(junction.auto_name){ // default getter if(param_count>1) throw Exception(PARSER_RUNTIME, 0, "default getter method can't have more then 1 parameter (has %d parameters)", param_count); Value *param; METHOD_FRAME_ACTION(*junction.method, method_frame/*caller*/, junction.self, { if(param_count){ param=new VString(*junction.auto_name); frame.store_params(¶m, 1); } // no need for else frame.empty_params() Temp_disable_default_getter temp(junction.self); call(frame); return frame.result(); }); } else { // getter if(param_count>0) throw Exception(PARSER_RUNTIME, 0, "getter method must have no parameters (has %d parameters)", param_count); METHOD_FRAME_ACTION(*junction.method, method_frame/*caller*/, junction.self, { // no need for frame.empty_params() call(frame); return frame.result(); }); } } Value& Request::process(Value& input_value) { Junction* junction=input_value.get_junction(); if(junction) { if(junction->is_getter) { // is it a getter-junction? return process(process_getter(*junction)); } if(junction->code) { // is it a code-junction? // process it ValueRef result; DEBUG_PRINT_STR("ja->\n") if(!junction->method_frame) throw Exception(PARSER_RUNTIME, 0, "junction used outside of context"); SAVE_CONTEXT method_frame=junction->method_frame; rcontext=junction->rcontext; // for code in [] and () wcontext is set 0 // using the fact in decision "which wrapper to use" if(junction->wcontext) { // {} code wrapper VCodeFrame local(*junction->wcontext); wcontext=&local; // execute it recoursion_checked_execute(*junction->code); result=wcontext->result(); } else { // [] or () code wrapper WWrapper local(wcontext); wcontext=&local; // execute it recoursion_checked_execute(*junction->code); result=wcontext->result(); } RESTORE_CONTEXT DEBUG_PRINT_STR("<-ja returned") return result; } // it is then method-junction, do not explode it // just return it as we do for usual objects } return input_value; } void Request::process_write(Value& input_value) { Junction* junction=input_value.get_junction(); if(junction) { // no getter-junction check as process_write is called // to process method arguments, not from get_element if(junction->code) { // is it a code-junction? // process it DEBUG_PRINT_STR("ja->\n") if(!junction->method_frame) throw Exception(PARSER_RUNTIME, 0, "junction used outside of context"); SAVE_CONTEXT method_frame=junction->method_frame; rcontext=junction->rcontext; // for code in [] and () wcontext is set 0 // using the fact in decision "which wwrapper to use" #ifdef OPTIMIZE_CALL if(wcontext==junction->wcontext){ // no wrappers for wcontext recoursion_checked_execute(*junction->code); RESTORE_CONTEXT } else #endif if(junction->wcontext) { // {} code wrapper VCodeFrame local(*junction->wcontext); wcontext=&local; // execute it recoursion_checked_execute(*junction->code); RESTORE_CONTEXT write(local.result()); } else { // [] or () code wrapper WWrapper local(wcontext); wcontext=&local; // execute it recoursion_checked_execute(*junction->code); RESTORE_CONTEXT write(local.result()); } DEBUG_PRINT_STR("<-ja returned") return; } // it is then method-junction, do not explode it // just return it as we do for usual objects } write(input_value); } const String* Request::execute_method(Value& aself, const Method& method, Value* optional_param, bool do_return_string) { METHOD_FRAME_ACTION(method, method_frame/*caller*/, aself, { if(optional_param && method.params_count>0) { frame.store_params(&optional_param, 1); } else { frame.empty_params(); } // prevent non-string writes for better error reporting if(do_return_string) frame.write(frame); call(frame); return do_return_string ? frame.get_string() : 0; }); } Request::Execute_nonvirtual_method_result Request::execute_nonvirtual_method(VStateless_class& aclass, const String& method_name, VString* optional_param, bool do_return_string) { Execute_nonvirtual_method_result result; result.method=aclass.get_method(method_name); if(result.method) result.string=execute_method(aclass, *result.method, optional_param, do_return_string); return result; } const String* Request::execute_virtual_method(Value& aself, const String& method_name) { if(Value* value=aself.get_element(method_name)) if(Junction* junction=value->get_junction()) if(const Method *method=junction->method) return execute_method(aself, *method, 0/*no params*/, true); return 0; } const String* Request::get_method_filespec(const Method* method){ Operation::Origin origin=get_method_origin(method); return origin.file_no ? get_used_filespec(origin.file_no) : NULL; } const Operation::Origin Request::get_method_origin(const Method* method){ Operation::Origin origin={0, 0, 0}; if(ArrayOperation* code=method->parser_code) if(code){ Array_iterator i(*code); while( i.has_next() ){ switch( i.next().code ){ case OP::OP_CURLY_CODE__STORE_PARAM: case OP::OP_EXPR_CODE__STORE_PARAM: case OP::OP_CURLY_CODE__CONSTRUCT: case OP::OP_NESTED_CODE: case OP::OP_OBJECT_POOL: case OP::OP_STRING_POOL: case OP::OP_CALL: case OP::OP_CALL__WRITE: { i.next(); // skip local ops i.next(); // skip next opcode // continue execution } case OP::OP_CONSTRUCT_OBJECT: case OP::OP_CONSTRUCT_OBJECT__WRITE: case OP::OP_VALUE: case OP::OP_STRING__WRITE: case OP::OP_VALUE__GET_CLASS: case OP::OP_VALUE__GET_BASE_CLASS: #ifdef OPTIMIZE_BYTECODE_GET_OBJECT_ELEMENT case OP::OP_GET_OBJECT_ELEMENT: case OP::OP_GET_OBJECT_ELEMENT__WRITE: #endif #ifdef OPTIMIZE_BYTECODE_GET_OBJECT_VAR_ELEMENT case OP::OP_GET_OBJECT_VAR_ELEMENT: case OP::OP_GET_OBJECT_VAR_ELEMENT__WRITE: #endif #ifdef OPTIMIZE_BYTECODE_GET_ELEMENT case OP::OP_VALUE__GET_ELEMENT: case OP::OP_VALUE__GET_ELEMENT__WRITE: case OP::OP_VALUE__GET_ELEMENT_OR_OPERATOR: case OP::OP_WITH_ROOT__VALUE__GET_ELEMENT: #endif #ifdef OPTIMIZE_BYTECODE_GET_SELF_ELEMENT case OP::OP_WITH_SELF__VALUE__GET_ELEMENT: case OP::OP_WITH_SELF__VALUE__GET_ELEMENT__WRITE: #endif #ifdef FEATURE_GET_ELEMENT4CALL case OP::OP_GET_ELEMENT4CALL: #ifdef OPTIMIZE_BYTECODE_GET_OBJECT_ELEMENT case OP::OP_GET_OBJECT_ELEMENT4CALL: #endif #ifdef OPTIMIZE_BYTECODE_GET_OBJECT_VAR_ELEMENT case OP::OP_GET_OBJECT_VAR_ELEMENT4CALL: #endif #endif // FEATURE_GET_ELEMENT4CALL #ifdef OPTIMIZE_BYTECODE_CONSTRUCT case OP::OP_WITH_ROOT__VALUE__CONSTRUCT_EXPR: case OP::OP_WITH_ROOT__VALUE__CONSTRUCT_VALUE: case OP::OP_WITH_WRITE__VALUE__CONSTRUCT_EXPR: case OP::OP_WITH_WRITE__VALUE__CONSTRUCT_VALUE: case OP::OP_WITH_SELF__VALUE__CONSTRUCT_EXPR: case OP::OP_WITH_SELF__VALUE__CONSTRUCT_VALUE: #endif { origin=i.next().origin; break; } default: break; } if(origin.file_no) return origin; } } return origin; }