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84b9d9a3a29cdf4359ca200976917c44225f8beb
hhvm/hphp/runtime/ext/ext_variable.cpp
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Drew Paroski 84b9d9a3a2 Separate resources from objects, part 1 
In HHVM (and HPHPc before it) we've been piggybacking resources on the
KindOfObject machinery. At the language level, resource is considered to
be a different type than object, and there are a number of differences
in behavior between objects and resources (ex. resources don't allow for
dynamic properties, resources don't work with the clone operator, the
"(object)" cast behaves differently for resources vs. objects, etc).

Piggybacking resources on the KindOfObject machinery has some downsides.
Code that deals with KindOfObject values often needs to check if the value
is a resource and go down a different code path. This makes things harder
to maintain and harder to keep parity with Zend. Also, these extra branches
hurt performance a little, and they make it harder for the JIT to do a good
job in some cases when its generating machine code that operates on objects.

This diff prepares the code base for a new KindOfResource type by adding a
new "Resource" smart pointer type (currently a typedef for the Object smart
pointer type) and it updates the C++ code and the idl files appropriately.
This diff is essentially a cosmetic change and should not impact run time
behavior. In the next diff (part 2) we'll actually add a new KindOfResource
type, detach ResourceData from the ObjectData inheritence hierarchy, and
provide a real implementation for the Resource smart pointer type (instead
of just aliasing the Object smart pointer type).
2013-07-10 11:16:33 -07:00

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/*
+----------------------------------------------------------------------+
| HipHop for PHP |
+----------------------------------------------------------------------+
| Copyright (c) 2010-2013 Facebook, Inc. (http://www.facebook.com) |
| Copyright (c) 1997-2010 The PHP Group |
+----------------------------------------------------------------------+
| This source file is subject to version 3.01 of the PHP license, |
| that is bundled with this package in the file LICENSE, and is |
| available through the world-wide-web at the following url: |
| http://www.php.net/license/3_01.txt |
| If you did not receive a copy of the PHP license and are unable to |
| obtain it through the world-wide-web, please send a note to |
| license@php.net so we can mail you a copy immediately. |
+----------------------------------------------------------------------+
*/
#include "hphp/runtime/ext/ext_variable.h"
#include "hphp/runtime/base/variable_serializer.h"
#include "hphp/runtime/base/variable_unserializer.h"
#include "hphp/runtime/base/builtin_functions.h"
#include "hphp/util/logger.h"
namespace HPHP {
///////////////////////////////////////////////////////////////////////////////
String f_gettype(CVarRef v) {
return getDataTypeString(v.getType());
}
String f_get_resource_type(CResRef handle) {
if (handle.isResource()) {
return handle->o_getClassName();
}
return "";
}
int64_t f_intval(CVarRef v, int64_t base /* = 10 */) { return v.toInt64(base);}
double f_doubleval(CVarRef v) { return v.toDouble();}
double f_floatval(CVarRef v) { return v.toDouble();}
String f_strval(CVarRef v) { return v.toString();}
bool f_settype(VRefParam var, CStrRef type) {
if (type == "boolean") var = var.toBoolean();
else if (type == "bool" ) var = var.toBoolean();
else if (type == "integer") var = var.toInt64();
else if (type == "int" ) var = var.toInt64();
else if (type == "float" ) var = var.toDouble();
else if (type == "string" ) var = var.toString();
else if (type == "array" ) var = var.toArray();
else if (type == "object" ) var = var.toObject();
else if (type == "null" ) var = uninit_null();
else return false;
return true;
}
bool f_is_bool(CVarRef v) {
return is_bool(v);
}
bool f_is_int(CVarRef v) {
return is_int(v);
}
bool f_is_integer(CVarRef v) {
return is_int(v);
}
bool f_is_long(CVarRef v) {
return is_int(v);
}
bool f_is_double(CVarRef v) {
return is_double(v);
}
bool f_is_float(CVarRef v) {
return is_double(v);
}
bool f_is_numeric(CVarRef v) {
return v.isNumeric(true);
}
bool f_is_real(CVarRef v) {
return is_double(v);
}
bool f_is_string(CVarRef v) {
return is_string(v);
}
bool f_is_scalar(CVarRef v) {
return v.isScalar();
}
bool f_is_array(CVarRef v) {
return is_array(v);
}
bool f_is_object(CVarRef v) {
return is_object(v);
}
bool f_is_resource(CVarRef v) {
return v.isResource();
}
bool f_is_null(CVarRef v) {
return is_null(v);
}
///////////////////////////////////////////////////////////////////////////////
// input/output
Variant f_print_r(CVarRef expression, bool ret /* = false */) {
Variant res;
try {
VariableSerializer vs(VariableSerializer::Type::PrintR);
if (ret) {
res = vs.serialize(expression, ret);
} else {
vs.serialize(expression, ret);
res = true;
}
} catch (StringBufferLimitException &e) {
raise_notice("print_r() exceeded max bytes limit");
res = e.m_result;
}
return res;
}
Variant f_var_export(CVarRef expression, bool ret /* = false */) {
Variant res;
try {
VariableSerializer vs(VariableSerializer::Type::VarExport);
if (ret) {
res = vs.serialize(expression, ret);
} else {
vs.serialize(expression, ret);
res = true;
}
} catch (StringBufferLimitException &e) {
raise_notice("var_export() exceeded max bytes limit");
}
return res;
}
void f_var_dump(CVarRef v) {
VariableSerializer vs(VariableSerializer::Type::VarDump, 0, 2);
// manipulate maxCount to match PHP behavior
if (!v.isObject()) {
vs.incMaxCount();
}
vs.serialize(v, false);
}
void f_var_dump(int _argc, CVarRef expression,
CArrRef _argv /* = null_array */) {
f_var_dump(expression);
for (int i = 0; i < _argv.size(); i++) {
f_var_dump(_argv[i]);
}
}
void f_debug_zval_dump(CVarRef variable) {
VariableSerializer vs(VariableSerializer::Type::DebugDump);
vs.serialize(variable, false);
}
Variant f_unserialize(CStrRef str, CArrRef class_whitelist /* = empty_array */) {
return unserialize_from_string(str, class_whitelist);
}
///////////////////////////////////////////////////////////////////////////////
// variable table
Array f_get_defined_vars() {
VarEnv* v = g_vmContext->getVarEnv();
if (v) {
return v->getDefinedVariables();
} else {
return Array::Create();
}
}
bool f_import_request_variables(CStrRef types, CStrRef prefix /* = "" */) {
throw NotSupportedException(__func__,
"It is bad coding practice to remove scoping of "
"variables just to achieve coding convenience, "
"esp. in a language that encourages global "
"variables. This is possible to implement "
"though, by declaring those global variables "
"beforehand and assign with scoped ones when "
"this function is called.");
}
int64_t f_extract(CArrRef var_array, int extract_type /* = EXTR_OVERWRITE */,
CStrRef prefix /* = "" */) {
bool reference = extract_type & EXTR_REFS;
extract_type &= ~EXTR_REFS;
VarEnv* v = g_vmContext->getVarEnv();
if (!v) return 0;
int count = 0;
for (ArrayIter iter(var_array); iter; ++iter) {
String name = iter.first();
StringData* nameData = name.get();
switch (extract_type) {
case EXTR_SKIP:
if (v->lookup(nameData) != NULL) {
continue;
}
break;
case EXTR_IF_EXISTS:
if (v->lookup(nameData) == NULL) {
continue;
}
break;
case EXTR_PREFIX_SAME:
if (v->lookup(nameData) != NULL) {
name = prefix + "_" + name;
}
break;
case EXTR_PREFIX_ALL:
name = prefix + "_" + name;
break;
case EXTR_PREFIX_INVALID:
if (!nameData->isValidVariableName()) {
name = prefix + "_" + name;
}
break;
case EXTR_PREFIX_IF_EXISTS:
if (v->lookup(nameData) == NULL) {
continue;
}
name = prefix + "_" + name;
break;
default:
break;
}
nameData = name.get();
// skip invalid variable names, as in PHP
if (!nameData->isValidVariableName()) {
continue;
}
g_vmContext->setVar(nameData, iter.nvSecond(), reference);
count++;
}
return count;
}
///////////////////////////////////////////////////////////////////////////////
}
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