/** @file Parser: executor part of request class. Copyright (c) 2001, 2002 ArtLebedev Group (http://www.artlebedev.com) Author: Alexandr Petrosian (http://paf.design.ru) $Id: execute.C,v 1.233 2002/04/16 08:42:35 paf Exp $ */ #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" //#define DEBUG_EXECUTE //#define DEBUG_STRING_APPENDS_VS_EXPANDS #ifdef DEBUG_STRING_APPENDS_VS_EXPANDS ulong wcontext_result_size=0; #endif #ifdef DEBUG_EXECUTE char *opcode_name[]={ // literals "VALUE", "CURLY_CODE__STORE_PARAM", "EXPR_CODE__STORE_PARAM", "NESTED_CODE", // actions "WITH_ROOT", "WITH_SELF", "WITH_READ", "WITH_WRITE", "GET_CLASS", "CONSTRUCT_VALUE", "CONSTRUCT_EXPR", "CURLY_CODE__CONSTRUCT", "WRITE_VALUE", "WRITE_EXPR_RESULT", "STRING__WRITE", "GET_ELEMENT_OR_OPERATOR", "GET_ELEMENT", "GET_ELEMENT__WRITE", "OBJECT_POOL", "STRING_POOL", "GET_METHOD_FRAME", "STORE_PARAM", "PREPARE_TO_CONSTRUCT_OBJECT", "PREPARE_TO_EXPRESSION", "CALL", "CALL__WRITE", // expression ops: unary "NEG", "INV", "NOT", "DEF", "IN", "FEXISTS", "DEXISTS", // expression ops: binary "SUB", "ADD", "MUL", "DIV", "MOD", "INTDIV", "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" }; void va_debug_printf(Pool& pool, const char *fmt,va_list args) { char buf[MAX_STRING]; vsnprintf(buf, MAX_STRING, fmt, args); SAPI::log(pool, "%s", buf); } void debug_printf(Pool& pool, const char *fmt, ...) { va_list args; va_start(args,fmt); va_debug_printf(pool,fmt,args); va_end(args); } void debug_dump(Pool& pool, int level, const Array& ops) { Array_iter i(ops); while(i.has_next()) { Operation op; op.cast=i.next(); if(op.code==OP_VALUE || op.code==OP_STRING__WRITE) { Value *value=static_cast(i.next()); debug_printf(pool, "%*s%s" " \"%s\" %s", level*4, "", opcode_name[op.code], value->get_string()->cstr(), value->type()); continue; } debug_printf(pool, "%*s%s", level*4, "", opcode_name[op.code]); switch(op.code) { case OP_CURLY_CODE__STORE_PARAM: case OP_EXPR_CODE__STORE_PARAM: case OP_CURLY_CODE__CONSTRUCT: case OP_NESTED_CODE: case OP_OBJECT_POOL: case OP_STRING_POOL: const Array *local_ops=reinterpret_cast(i.next()); debug_dump(pool, level+1, *local_ops); } } } #endif #define PUSH(value) stack.push(value) #define POP() static_cast(stack.pop()) #define POP_NAME() static_cast(stack.pop())->as_string() #define POP_CODE() static_cast(stack.pop()) void Request::execute(const Array& ops) { // _asm int 3; #ifdef DEBUG_EXECUTE debug_printf(pool(), "source----------------------------\n"); debug_dump(pool(), 0, ops); debug_printf(pool(), "execution-------------------------\n"); #endif Array_iter i(ops); while(i.has_next()) { Operation op; op.cast=i.next(); #ifdef DEBUG_EXECUTE debug_printf(pool(), "%d:%s", stack.top_index()+1, opcode_name[op.code]); #endif Value *value; Value *a; Value *b; Array *b_code; switch(op.code) { // param in next instruction case OP_VALUE: { value=static_cast(i.next()); #ifdef DEBUG_EXECUTE debug_printf(pool(), " \"%s\" %s", value->get_string()->cstr(), value->type()); #endif PUSH(value); break; } case OP_CURLY_CODE__STORE_PARAM: case OP_EXPR_CODE__STORE_PARAM: { VMethodFrame *frame=static_cast(stack.top_value()); // code const Array *local_ops=reinterpret_cast(i.next()); #ifdef DEBUG_EXECUTE debug_printf(pool(), " (%d)\n", local_ops->size()); debug_dump(pool(), 1, *local_ops); #endif // 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" Junction& j=*NEW Junction(pool(), *self, 0, 0, root, rcontext, op.code==OP_EXPR_CODE__STORE_PARAM?0:wcontext, local_ops); value=NEW VJunction(j); // store param frame->store_param(frame->name(), value); break; } case OP_GET_CLASS: { // maybe they do ^class:method[] call, remember the fact wcontext->set_somebody_entered_some_class(); const String& name=POP_NAME(); value=static_cast(classes().get(name)); if(!value) throw Exception("parser.runtime", &name, "class is undefined"); PUSH(value); break; } // OP_WITH case OP_WITH_ROOT: { PUSH(root); break; } case OP_WITH_SELF: { PUSH(self); break; } case OP_WITH_READ: { PUSH(rcontext); break; } case OP_WITH_WRITE: { PUSH(wcontext); break; } // OTHER ACTIONS BUT WITHs case OP_CONSTRUCT_VALUE: { value=POP(); const String& name=POP_NAME(); Value *ncontext=POP(); ncontext->put_element(name, value); value->set_name(name); break; } case OP_CONSTRUCT_EXPR: { // see OP_PREPARE_TO_EXPRESSION wcontext->set_in_expression(false); value=POP(); const String& name=POP_NAME(); Value *ncontext=POP(); ncontext->put_element(name, value->as_expr_result()); value->set_name(name); break; } case OP_CURLY_CODE__CONSTRUCT: { const Array *local_ops=reinterpret_cast(i.next()); #ifdef DEBUG_EXECUTE debug_printf(pool(), " (%d)\n", local_ops->size()); debug_dump(pool(), 1, *local_ops); #endif Junction& j=*NEW Junction(pool(), *self, 0, 0, root, rcontext, wcontext, local_ops); value=NEW VJunction(j); const String& name=POP_NAME(); Value *ncontext=POP(); ncontext->put_element(name, value); value->set_name(name); break; } case OP_NESTED_CODE: { Array *local_ops=static_cast(i.next()); #ifdef DEBUG_EXECUTE debug_printf(pool(), " (%d)\n", local_ops->size()); debug_dump(pool(), 1, *local_ops); #endif PUSH(local_ops); break; } case OP_WRITE_VALUE: { value=POP(); write_assign_lang(*value); break; } case OP_WRITE_EXPR_RESULT: { value=POP(); write_no_lang(*value->as_expr_result()); // must be after write(result) and // see OP_PREPARE_TO_EXPRESSION wcontext->set_in_expression(false); break; } case OP_STRING__WRITE: { VString *vstring=static_cast(i.next()); #ifdef DEBUG_EXECUTE debug_printf(pool(), " \"%s\"", vstring->string().cstr()); #endif write_no_lang(vstring->string()); break; } case OP_GET_ELEMENT_OR_OPERATOR: { // maybe they do ^object.method[] call, remember the fact wcontext->set_somebody_entered_some_object(true); //_asm int 3; value=get_element(true); PUSH(value); break; } case OP_GET_ELEMENT: { // maybe they do ^object.method[] call, remember the fact wcontext->set_somebody_entered_some_object(true); //_asm int 3; value=get_element(false); PUSH(value); break; } case OP_GET_ELEMENT__WRITE: { value=get_element(false); write_assign_lang(*value); break; } case OP_OBJECT_POOL: { const Array *local_ops=reinterpret_cast(i.next()); PUSH(wcontext); PUSH((void *)flang); flang=String::UL_PASS_APPENDED; WWrapper local(pool(), 0 /*empty*/); wcontext=&local; execute(*local_ops); value=&wcontext->result().as_value(); flang=static_cast(reinterpret_cast(POP())); wcontext=static_cast(POP()); PUSH(value); break; } case OP_STRING_POOL: { const Array *local_ops=reinterpret_cast(i.next()); PUSH(wcontext); WWrapper local(pool(), 0 /*empty*/); 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; if(string) value=NEW VString(*string); else NEW VVoid(pool()); wcontext=static_cast(POP()); PUSH(value); break; } // CALL case OP_GET_METHOD_FRAME: { value=POP(); // info: // code compiled so that this one's always method-junction, // not a code-junction Junction *junction=value->get_junction(); if(!junction) throw Exception("parser.runtime", &value->name(), "(%s) not a method or junction, can not call it", value->type()); VMethodFrame *frame=NEW VMethodFrame(pool(), value->name(), *junction); PUSH(frame); break; } case OP_STORE_PARAM: { value=POP(); VMethodFrame *frame=static_cast(stack.top_value()); frame->store_param(frame->name(), value); break; } case OP_PREPARE_TO_CONSTRUCT_OBJECT: { wcontext->set_constructing(true); break; } case OP_PREPARE_TO_EXPRESSION: { wcontext->set_in_expression(true); break; } case OP_CALL: case OP_CALL__WRITE: { #ifdef DEBUG_EXECUTE debug_printf(pool(), "->\n"); #endif VMethodFrame *frame=static_cast(POP()); frame->fill_unspecified_params(); PUSH(self); PUSH(root); PUSH(rcontext); PUSH(wcontext); VStateless_class *called_class=frame->junction.self.get_class(); if(wcontext->get_constructing()) { wcontext->set_constructing(false); if(frame->junction.method->call_type!=Method::CT_STATIC) { // this is a constructor call if(Value *value=called_class->create_new_value(pool())) { // some stateless_class creatable derivates self=value; } else throw Exception("parser.runtime", &frame->name(), "is not a constructor, system class '%s' can be constructed only implicitly", called_class->name().cstr()); frame->write(*self, String::UL_CLEAN // not used, always an object, not string ); } else throw Exception("parser.runtime", &frame->name(), "method is static and can not be used as constructor"); } else { // this is not constructor call // not ^name.method call, name:method call; and // is context object or class & is it my class or my parent's class and? VStateless_class *read_class=rcontext->get_class(); if( !(wcontext->get_somebody_entered_some_object() && !wcontext->get_somebody_entered_some_class()) && read_class && read_class->is_or_derived_from(*called_class)) // yes self=rcontext; // dynamic call else // no, not me or relative of mine (=total stranger) self=&frame->junction.self; // static call } frame->set_self(*self); // see OP_PREPARE_TO_EXPRESSION frame->set_in_expression(wcontext->get_in_expression()); rcontext=wcontext=frame; { // take object or class from any wrappers // and substitute class alias to the class they are called AS Temp_alias temp_alias(*self->get_aliased(), *frame->junction.vclass); const Method& method=*frame->junction.method; Method::Call_type call_type= called_class==self ? Method::CT_STATIC : Method::CT_DYNAMIC; if( method.call_type==Method::CT_ANY || method.call_type==call_type) { // allowed call type? try { if(method.native_code) { // native code? // root unchanged, so that ^for ^foreach & co may write to locals method.check_actual_numbered_params( frame->junction.self, frame->name(), frame->numbered_params()); method.native_code( *this, frame->name(), frame->numbered_params()); // execute it } else { // parser code root=frame; // execute it recoursion_checked_execute(&frame->name(), *method.parser_code); } } catch(...) { // record it to stack trace exception_trace.push((void *)&frame->name()); /*re*/throw; } } else throw Exception("parser.runtime", &frame->name(), "is not allowed to be called %s", call_type==Method::CT_STATIC?"statically":"dynamically"); } StringOrValue result=wcontext->result(); wcontext=static_cast(POP()); rcontext=POP(); root=POP(); self=static_cast(POP()); #ifdef DEBUG_STRING_APPENDS_VS_EXPANDS if(const String *s=value->get_string()) wcontext_result_size+=s->used_rows()*sizeof(String::Chunk::Row); #endif if(op.code==OP_CALL__WRITE) { write_assign_lang(result); // forget the fact they've entered some ^object.method[]. // see OP_GET_ELEMENT wcontext->set_somebody_entered_some_object(false); } else { // OP_CALL PUSH(&result.as_value()); } #ifdef DEBUG_EXECUTE debug_printf(pool(), "<-returned"); #endif break; } // expression ops: unary case OP_NEG: { Value *operand=POP(); value=NEW VDouble(pool(), -operand->as_double()); PUSH(value); break; } case OP_INV: { Value *operand=POP(); value=NEW VDouble(pool(), ~operand->as_int()); PUSH(value); break; } case OP_NOT: { Value *operand=POP(); value=NEW VBool(pool(), !operand->as_bool()); PUSH(value); break; } case OP_DEF: { Value *operand=POP(); value=NEW VBool(pool(), operand->is_defined()); PUSH(value); break; } case OP_IN: { /// @test String::cmp Value *operand=POP(); const char *path=operand->as_string().cstr(); value=NEW VBool(pool(), info.uri && strncmp(path, info.uri, strlen(path))==0); PUSH(value); break; } case OP_FEXISTS: { Value *operand=POP(); value=NEW VBool(pool(), file_readable(absolute(operand->as_string()))); PUSH(value); break; } case OP_DEXISTS: { Value *operand=POP(); value=NEW VBool(pool(), dir_readable(absolute(operand->as_string()))); PUSH(value); break; } // expression ops: binary case OP_SUB: { b=POP(); a=POP(); value=NEW VDouble(pool(), a->as_double() - b->as_double()); PUSH(value); break; } case OP_ADD: { b=POP(); a=POP(); value=NEW VDouble(pool(), a->as_double() + b->as_double()); PUSH(value); break; } case OP_MUL: { b=POP(); a=POP(); value=NEW VDouble(pool(), a->as_double() * b->as_double()); PUSH(value); break; } case OP_DIV: { b=POP(); a=POP(); double a_double=a->as_double(); double b_double=b->as_double(); if(b_double == 0) { const String *problem_source=&b->as_string(); #ifndef NO_STRING_ORIGIN if(!problem_source->origin().file) problem_source=&b->name(); #endif throw Exception("number.zerodivision", problem_source, "Division by zero"); } value=NEW VDouble(pool(), a_double / b_double); PUSH(value); break; } case OP_MOD: { b=POP(); a=POP(); double a_double=a->as_double(); double b_double=b->as_double(); if(b_double == 0) { const String *problem_source=&b->as_string(); #ifndef NO_STRING_ORIGIN if(!problem_source->origin().file) problem_source=&b->name(); #endif throw Exception("number.zerodivision", problem_source, "Modulus by zero"); } value=NEW VDouble(pool(), fmod(a_double, b_double)); PUSH(value); break; } case OP_INTDIV: { b=POP(); a=POP(); int a_int=a->as_int(); int b_int=b->as_int(); if(b_int == 0) { const String *problem_source=&b->as_string(); #ifndef NO_STRING_ORIGIN if(!problem_source->origin().file) problem_source=&b->name(); #endif throw Exception("number.zerodivision", problem_source, "Division by zero"); } value=NEW VInt(pool(), a_int / b_int); PUSH(value); break; } case OP_BIN_AND: { b=POP(); a=POP(); value=NEW VDouble(pool(), a->as_int() & b->as_int()); PUSH(value); break; } case OP_BIN_OR: { b=POP(); a=POP(); value=NEW VDouble(pool(), a->as_int() | b->as_int()); PUSH(value); break; } case OP_BIN_XOR: { b=POP(); a=POP(); value=NEW VDouble(pool(), a->as_int() ^ b->as_int()); PUSH(value); break; } case OP_LOG_AND: { b_code=POP_CODE(); a=POP(); bool result; if(a->as_bool()) { execute(*b_code); b=POP(); result=b->as_bool(); } else result=false; value=NEW VBool(pool(), result); PUSH(value); break; } case OP_LOG_OR: { b_code=POP_CODE(); a=POP(); bool result; if(a->as_bool()) result=true; else { execute(*b_code); b=POP(); result=b->as_bool(); } value=NEW VBool(pool(), result); PUSH(value); break; } case OP_LOG_XOR: { b=POP(); a=POP(); value=NEW VBool(pool(), a->as_bool() ^ b->as_bool()); PUSH(value); break; } case OP_NUM_LT: { b=POP(); a=POP(); value=NEW VBool(pool(), a->as_double() < b->as_double()); PUSH(value); break; } case OP_NUM_GT: { b=POP(); a=POP(); value=NEW VBool(pool(), a->as_double() > b->as_double()); PUSH(value); break; } case OP_NUM_LE: { b=POP(); a=POP(); value=NEW VBool(pool(), a->as_double() <= b->as_double()); PUSH(value); break; } case OP_NUM_GE: { b=POP(); a=POP(); value=NEW VBool(pool(), a->as_double() >= b->as_double()); PUSH(value); break; } case OP_NUM_EQ: { b=POP(); a=POP(); value=NEW VBool(pool(), a->as_double() == b->as_double()); PUSH(value); break; } case OP_NUM_NE: { b=POP(); a=POP(); value=NEW VBool(pool(), a->as_double() != b->as_double()); PUSH(value); break; } case OP_STR_LT: { b=POP(); a=POP(); value=NEW VBool(pool(), a->as_string() < b->as_string()); PUSH(value); break; } case OP_STR_GT: { b=POP(); a=POP(); value=NEW VBool(pool(), a->as_string() > b->as_string()); PUSH(value); break; } case OP_STR_LE: { b=POP(); a=POP(); value=NEW VBool(pool(), a->as_string() <= b->as_string()); PUSH(value); break; } case OP_STR_GE: { b=POP(); a=POP(); value=NEW VBool(pool(), a->as_string() >= b->as_string()); PUSH(value); break; } case OP_STR_EQ: { b=POP(); a=POP(); value=NEW VBool(pool(), a->as_string() == b->as_string()); PUSH(value); break; } case OP_STR_NE: { b=POP(); a=POP(); value=NEW VBool(pool(), a->as_string() != b->as_string()); PUSH(value); break; } case OP_IS: { //_asm int 3; b=POP(); a=POP(); value=NEW VBool(pool(), b->as_string() == a->type()); PUSH(value); break; } default: throw Exception(0, 0, "invalid opcode %d", op.code); } } } /// @test cache|prepare junctions Value *Request::get_element(bool can_call_operator) { const String& name=POP_NAME(); Value *ncontext=POP(); Value *value=0; if(can_call_operator) if(Method* method=OP.get_method(name)) { // looking operator of that name FIRST // as if that method were in self and we have normal dynamic method here Junction& junction=*NEW Junction(pool(), *root, self->get_class(), method, 0,0,0,0); value=NEW VJunction(junction); } if(!value) value=ncontext->get_element(name); if(value) { value=&process_to_value(*value); // process possible code-junction value->update_name(name); } else { value=NEW VVoid(pool()); value->set_name(name); } return value; } /** @param intercept_string - true: they want result=string value, possible object result goes to wcontext - false: they want any result[string|object] nothing goes to wcontext. used in @c (expression) params evaluation using the fact it's either string_ or value_ result requested to speed up checkes */ StringOrValue Request::process(Value& input_value, bool intercept_string) { StringOrValue result; Junction *junction=input_value.get_junction(); if(junction && junction->code) { // is it a code-junction? // process it #ifdef DEBUG_EXECUTE debug_printf(pool(), "ja->\n"); #endif PUSH(self); PUSH(root); PUSH(rcontext); PUSH(wcontext); self=&junction->self; root=junction->root; rcontext=junction->rcontext; // for expression method params // wcontext is set 0 // using the fact in decision "which wwrapper to use" bool using_code_frame=intercept_string && junction->wcontext; if(using_code_frame) { // almost plain wwrapper about junction wcontext, // BUT intercepts string writes VCodeFrame local(pool(), *junction->wcontext); wcontext=&local; // execute it recoursion_checked_execute(0/*result_name*/, *junction->code); // CodeFrame soul: // string writes were intercepted // returning them as the result of getting code-junction result.set_string(*wcontext->get_string()); } else { // plain wwrapper WWrapper local(pool(), 0/*empty*/); wcontext=&local; // execute it recoursion_checked_execute(0/*result_name*/, *junction->code); result=wcontext->result(); } wcontext=static_cast(POP()); rcontext=POP(); root=POP(); self=static_cast(POP()); #ifdef DEBUG_EXECUTE debug_printf(pool(), "<-ja returned"); #endif } else { result.set_value(input_value); } return result; } const String *Request::execute_method(Value& aself, const Method& method, bool return_cstr) { PUSH(self); PUSH(root); PUSH(rcontext); PUSH(wcontext); // initialize contexts root=rcontext=self=&aself; WWrapper local(pool(), &aself); wcontext=&local; // execute! execute(*method.parser_code); // result const String *result=return_cstr ? &wcontext->as_string() : 0; wcontext=static_cast(POP()); rcontext=POP(); root=POP(); self=static_cast(POP()); // return return result; } const String& Request::execute_method(VMethodFrame& amethodFrame, const Method& method) { PUSH(self); PUSH(root); PUSH(rcontext); PUSH(wcontext); // initialize contexts root=rcontext=self=&amethodFrame; wcontext=&amethodFrame; // execute! execute(*method.parser_code); // result const String& result=wcontext->as_string(); wcontext=static_cast(POP()); rcontext=POP(); root=POP(); self=static_cast(POP()); // return 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, true /*return_cstr*/); return 0; } const String *Request::execute_nonvirtual_method(VStateless_class& aclass, const String& method_name, bool return_cstr) { if(const Method *method=aclass.get_method(method_name)) return execute_method(aclass, *method, return_cstr); return 0; }