/** @file
Parser: executor part of request class.
Copyright (c) 2001-2009 ArtLebedev Group (http://www.artlebedev.com)
Author: Alexandr Petrosian <paf@design.ru> (http://paf.design.ru)
*/
static const char * const IDENT_EXECUTE_C="$Date: 2009/04/24 06:30:58 $";
#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
#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",
"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_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"
};
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<Operation> i(ops);
while(i.has_next()) {
OP::OPCODE opcode=i.next().code;
if(opcode==OP::OP_VALUE || opcode==OP::OP_STRING__WRITE) {
Operation::Origin origin=i.next().origin;
Value& value=*i.next().value;
debug_printf(sapi_info,
"%*s%s"
" \"%s\" %s",
level*4, "", opcode_name[opcode],
value.get_string()->cstr(), 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);
}
}
}
#endif
// Request
void Request::execute(ArrayOperation& ops) {
register Stack<StackItem>& 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<Operation> 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;
#ifdef DEBUG_EXECUTE
debug_printf(sapi_info, " \"%s\" %s", value.get_string()->cstr(), value.type());
#endif
stack.push(value);
break;
}
case OP::OP_GET_CLASS:
{
// maybe they do ^class:method[] call, remember the fact
wcontext->set_somebody_entered_some_class();
const String& name=stack.pop().string();
Value* value=classes().get(name);
if(!value)
throw Exception(PARSER_RUNTIME,
&name,
"class is undefined");
stack.push(*value);
break;
}
// 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
case OP::OP_CONSTRUCT_VALUE:
{
Value& value=stack.pop().value();
const String& name=stack.pop().string(); debug_name=&name;
Value& ncontext=stack.pop().value();
put_element(ncontext, name, value);
break;
}
case OP::OP_CONSTRUCT_EXPR:
{
// see OP_PREPARE_TO_EXPRESSION
wcontext->set_in_expression(false);
Value& expr=stack.pop().value();
const String& name=stack.pop().string(); debug_name=&name;
Value& ncontext=stack.pop().value();
Value& value=expr.as_expr_result();
put_element(ncontext, name, value);
break;
}
case OP::OP_CURLY_CODE__CONSTRUCT:
{
ArrayOperation& local_ops=*i.next().ops;
#ifdef DEBUG_EXECUTE
debug_printf(sapi_info, " (%d)\n", local_ops.count());
debug_dump(sapi_info, 1, local_ops);
#endif
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(ncontext, name, &value, false))
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;
#ifdef DEBUG_EXECUTE
debug_printf(sapi_info, " (%d)\n", local_ops.count());
debug_dump(sapi_info, 1, local_ops);
#endif
stack.push(local_ops);
break;
}
case OP::OP_WRITE_VALUE:
{
Value& value=stack.pop().value();
write_assign_lang(value);
break;
}
case OP::OP_WRITE_EXPR_RESULT:
{
Value& value=stack.pop().value();
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::OP_STRING__WRITE:
{
i.next(); // ignore origin
Value* value=i.next().value;
#ifdef DEBUG_EXECUTE
debug_printf(sapi_info, " \"%s\"", value->get_string()->cstr());
#endif
write_no_lang(*value->get_string());
break;
}
case OP::OP_GET_ELEMENT_OR_OPERATOR:
{
const String& name=stack.pop().string(); debug_name=&name;
Value& ncontext=stack.pop().value();
Value& value=get_element(ncontext, name, true);
stack.push(value);
break;
}
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, false);
stack.push(value);
break;
}
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, false);
write_assign_lang(value);
break;
}
case OP::OP_OBJECT_POOL:
{
ArrayOperation& local_ops=*i.next().ops;
WContext *saved_wcontext=wcontext;
String::Language saved_lang=flang;
flang=String::L_PASS_APPENDED;
WWrapper local(0/*empty*/, wcontext);
wcontext=&local;
execute(local_ops);
stack.push(wcontext->result().as_value());
flang=saved_lang;
wcontext=saved_wcontext;
break;
}
case OP::OP_STRING_POOL:
{
ArrayOperation& local_ops=*i.next().ops;
WContext *saved_wcontext=wcontext;
WWrapper local(0 /*empty*/, wcontext);
wcontext=&local;
execute(local_ops);
Value* value;
// from "$a $b" part of expression taking only string value,
// ignoring any other content of wcontext
if(const String* string=wcontext->get_string())
value=new VString(*string);
else
value=VVoid::get();
stack.push(*value);
wcontext=saved_wcontext;
break;
}
// CALL
case OP::OP_STORE_PARAM:
{
Value& value=stack.pop().value();
VMethodFrame& frame=stack.top_value().method_frame();
// this op is executed from CALL local_ops only, so may skip the check "method_frame_to_fill==0"
frame.store_param(value);
break;
}
case OP::OP_CURLY_CODE__STORE_PARAM:
case OP::OP_EXPR_CODE__STORE_PARAM:
{
// code
ArrayOperation& local_ops=*i.next().ops;
VMethodFrame& frame=stack.top_value().method_frame();
#ifdef DEBUG_EXECUTE
debug_printf(sapi_info, " (%d)\n", local_ops.count());
debug_dump(sapi_info, 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"
VJunction& value=*new VJunction(
get_self(), 0,
method_frame,
rcontext,
opcode==OP::OP_EXPR_CODE__STORE_PARAM?0:wcontext,
&local_ops);
#ifdef USE_DESTRUCTORS
value.set_temporal(true);
#else
if (opcode!=OP::OP_EXPR_CODE__STORE_PARAM)
#endif
wcontext->attach_junction(&value);
// store param
// this op is executed from CALL local_ops only, so can not check method_frame_to_fill==0
frame.store_param(value);
break;
}
case OP::OP_PREPARE_TO_CONSTRUCT_OBJECT:
{
wcontext->set_constructing(true);
break;
}
case OP::OP_PREPARE_TO_EXPRESSION:
{
wcontext->set_in_expression(true);
break;
}
case OP::OP_CALL:
case OP::OP_CALL__WRITE:
{
//is_debug_junction=true;
ArrayOperation* local_ops=i.next().ops;
#ifdef DEBUG_EXECUTE
debug_printf(sapi_info, " (%d)\n", local_ops?local_ops->count():0);
if(local_ops)
debug_dump(sapi_info, 1, *local_ops);
debug_printf(sapi_info, "->\n");
#endif
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());
}
/* no check needed, code compiled the way that that's impossible
// check:
// that this is method-junction, not a code-junction
// [disabling these contstructions:]
// $junction{code}
// ^junction[]
if(!junction->method)
throw Exception(PARSER_RUNTIME,
"is '%s', it is code junction, can not call it",
value.type());
*/
VMethodFrame frame(*junction, method_frame);
if(local_ops){ // store param code goes here
stack.push(frame); // argument for *STORE_PARAM ops
execute(*local_ops);
stack.pop().value();
}
WContext* result_wcontext=op_call(frame);
if(opcode==OP::OP_CALL__WRITE) {
write_assign_lang(result_wcontext->result());
} else { // OP_CALL
stack.push(result_wcontext->result().as_value());
}
#ifdef DEBUG_EXECUTE
debug_printf(sapi_info, "<-returned");
#endif
//is_debug_junction=false;
if(get_skip())
return;
if(get_interrupted()) {
set_interrupted(false);
throw Exception("parser.interrupted",
0,
"execution stopped");
}
break;
}
// 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, //problem_source,
"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, //problem_source,
"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, //problem_source,
"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);
break;
}
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);
break;
}
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_double<b_double);
stack.push(value);
break;
}
case OP::OP_NUM_GT:
{
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_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);
}
}
} catch(const Exception&) {
// record it to stack trace
if(debug_name)
exception_trace.push(Trace(debug_name, debug_origin));
rethrow;
}
}
WContext* Request::op_call(VMethodFrame& frame){
frame.fill_unspecified_params();
VMethodFrame *saved_method_frame=method_frame;
Value* saved_rcontext=rcontext;
WContext *saved_wcontext=wcontext;
VStateless_class& called_class=*frame.junction.self.get_class();
Value* new_self;
if(wcontext->get_constructing()) {
wcontext->set_constructing(false);
new_self=&get_self();
if(frame.junction.method->call_type!=Method::CT_STATIC) {
// this is a constructor call
HashStringValue& new_object_fields=*new HashStringValue();
if(Value* value=called_class.create_new_value(fpool, new_object_fields)) {
// some stateless_class creatable derivates
new_self=value;
} else
throw Exception(PARSER_RUNTIME,
0, //&frame.name(),
"is not a constructor, system class '%s' can be constructed only implicitly",
called_class.name().cstr());
frame.write(*new_self,
String::L_CLEAN // not used, always an object, not string
);
} else
throw Exception(PARSER_RUNTIME,
0, //&frame.name(),
"method is static and can not be used as constructor");
} else
new_self=&frame.junction.self;
frame.set_self(*new_self);
// see OP_PREPARE_TO_EXPRESSION
frame.set_in_expression(wcontext->get_in_expression());
rcontext=wcontext=&frame;
{
const Method& method=*frame.junction.method;
Method::Call_type call_type=&called_class==new_self ? Method::CT_STATIC : Method::CT_DYNAMIC;
if(
method.call_type==Method::CT_ANY ||
method.call_type==call_type) { // allowed call type?
method_frame=&frame;
if(method.native_code) { // native code?
method.check_actual_numbered_params(
frame.junction.self,
/*frame.name(), */frame.numbered_params());
method.native_code(
*this,
*frame.numbered_params()); // execute it
} else // parser code, execute it
recoursion_checked_execute(*method.parser_code);
} else
throw Exception(PARSER_RUNTIME,
0, //&frame.name(),
"is not allowed to be called %s",
call_type==Method::CT_STATIC?"statically":"dynamically");
}
WContext *result_wcontext=wcontext;
// StringOrValue result=wcontext->result();
wcontext=saved_wcontext;
rcontext=saved_rcontext;
method_frame=saved_method_frame;
return result_wcontext;
}
/**
@todo cache|prepare junctions
@bug ^superbase:method would dynamically call ^base:method if there is any
*/
Value& Request::get_element(Value& ncontext, const String& name, bool can_call_operator) {
Value* value=0;
if(can_call_operator) {
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);
return *method->junction_template;
}
}
if(!value) {
if(!wcontext->get_constructing() // not constructing
&& wcontext->get_somebody_entered_some_class() ) // ^class:method
if(VStateless_class *called_class=ncontext.get_class())
if(VStateless_class *read_class=rcontext->get_class())
if(read_class->derived_from(*called_class)) // current derived from called
if(Value* base=get_self().base()) { // doing DYNAMIC call
Temp_derived temp_derived(*base, 0); // temporarily prevent go-back-down virtual calls
value=base->get_element(name, *base, true); // virtual-up lookup starting from parent
goto value_ready;
}
}
if(!value)
value=ncontext.get_element(name, ncontext, true);
if(value && wcontext->get_constructing())
if(Junction* junction=value->get_junction()) {
if(junction->self.get_class()!=&ncontext)
throw Exception(PARSER_RUNTIME,
&name,
"constructor must be declared in class '%s'",
ncontext.get_class()->name_cstr());
}
value_ready:
if(value)
value=&process_to_value(*value); // process possible code-junction
else
value=VVoid::get();
return *value;
}
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(ncontext, name, &value, false))
if(vjunction!=PUT_ELEMENT_REPLACED_ELEMENT) {
const Junction& junction=vjunction->junction();
// process it
ArrayString* params_names=junction.method->params_names;
int param_count=params_names? params_names->count(): 0;
if(param_count!=1)
throw Exception(PARSER_RUNTIME,
0,
"setter method must have ONE parameter (has %d parameters)", param_count);
VMethodFrame frame(junction, method_frame/*caller*/);
frame.store_param(value);
frame.set_self(frame.junction.self);
VMethodFrame *saved_method_frame=method_frame;
Value* saved_rcontext=rcontext;
WContext *saved_wcontext=wcontext;
rcontext=wcontext=&frame;
method_frame=&frame;
// prevent non-string writes for better error reporting [setters are not expected to return anything]
wcontext->write(*method_frame);
recoursion_checked_execute(*frame.junction.method->parser_code); // parser code, execute it
// we don't need it StringOrValue result=wcontext->result();
method_frame=saved_method_frame;
wcontext=saved_wcontext;
rcontext=saved_rcontext;
}
}
/** @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) {
Junction* junction=input_value.get_junction();
if(junction) {
if(junction->is_getter) { // is it a getter-junction?
int param_count=junction->method->params_names?junction->method->params_names->count():0;
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);
} else if(param_count)
throw Exception(PARSER_RUNTIME,
0,
"getter method must have no parameters (has %d parameters)", param_count);
VMethodFrame frame(*junction, method_frame/*caller*/);
if(junction->auto_name && param_count)
frame.store_param(*new VString(*junction->auto_name));
frame.set_self(frame.junction.self);
VMethodFrame *saved_method_frame=method_frame;
Value* saved_rcontext=rcontext;
WContext *saved_wcontext=wcontext;
rcontext=wcontext=&frame;
method_frame=&frame;
recoursion_checked_execute(*frame.junction.method->parser_code); // parser code, execute it
StringOrValue result=wcontext->result();
method_frame=saved_method_frame;
wcontext=saved_wcontext;
rcontext=saved_rcontext;
return result;
}
if(junction->code) { // is it a code-junction?
// process it
StringOrValue result;
#ifdef DEBUG_EXECUTE
debug_printf(sapi_info, "ja->\n");
#endif
if(!junction->method_frame)
throw Exception(PARSER_RUNTIME,
0,
"junction used outside of context");
VMethodFrame *saved_method_frame=method_frame;
Value* saved_rcontext=rcontext;
WContext *saved_wcontext=wcontext;
method_frame=junction->method_frame;
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
VCodeFrame local(*junction->wcontext);
wcontext=&local;
// execute it
recoursion_checked_execute(*junction->code);
// CodeFrame soul:
result=wcontext->result();
} else {
// plain wwrapper
WWrapper local(0/*empty*/, wcontext);
wcontext=&local;
// execute it
recoursion_checked_execute(*junction->code);
result=wcontext->result();
}
wcontext=saved_wcontext;
rcontext=saved_rcontext;
method_frame=saved_method_frame;
#ifdef DEBUG_EXECUTE
debug_printf(sapi_info, "<-ja returned");
#endif
return result;
}
// it is then method-junction, do not explode it
// just return it as we do for usual objects
}
return input_value;
}
StringOrValue Request::execute_method(VMethodFrame& amethod_frame, const Method& method) {
VMethodFrame *saved_method_frame=method_frame;
Value* saved_rcontext=rcontext;
WContext *saved_wcontext=wcontext;
// initialize contexts
rcontext=wcontext=method_frame=&amethod_frame;
// execute!
execute(*method.parser_code);
// result
StringOrValue result=wcontext->result();
wcontext=saved_wcontext;
rcontext=saved_rcontext;
method_frame=saved_method_frame;
// return
return result;
}
const String* Request::execute_method(Value& aself,
const Method& method, VString* optional_param,
bool do_return_string) {
VMethodFrame *saved_method_frame=method_frame;
Value* saved_rcontext=rcontext;
WContext *saved_wcontext=wcontext;
Junction local_junction(aself, &method);
VMethodFrame local_frame(local_junction, method_frame/*caller*/);
if(optional_param && local_frame.can_store_param()) {
local_frame.store_param(*optional_param);
local_frame.fill_unspecified_params();
}
local_frame.set_self(aself);
rcontext=wcontext=method_frame=&local_frame;
// prevent non-string writes for better error reporting
if(do_return_string)
wcontext->write(local_frame);
// execute!
execute(*method.parser_code);
// result
const String* result=0;
if(do_return_string)
result=&wcontext->result().as_string();
wcontext=saved_wcontext;
rcontext=saved_rcontext;
method_frame=saved_method_frame;
return result;
}
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, aself, false))
if(Junction* junction=value->get_junction())
if(const Method *method=junction->method)
return execute_method(aself, *method, 0/*no params*/, true);
return 0;
}
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