Arquivos
hhvm/hphp/compiler/statement/switch_statement.cpp
T
Herman Venter afbde6181a Provide a way to serialize the compiler's AST in the form of a PHP Code Model.
The AST classes now have an additional visitor that can serialize the AST in the format expected by the unserialize function. The concrete classes to be produced by the unserialize function can be controlled by passing in a prefix argument to the visitor.

Facebook only:

Also added is an extension function fb_serialize_code_model_for(codeobject, prefix) that takes a string as its first argument, prefixes it with "<?php " and then parses it as if it were an eval string and then returns the serialized AST.

Reviewed By: @paroski

Differential Revision: D1027004
2013-11-26 21:14:17 -08:00

216 linhas
7.1 KiB
C++

/*
+----------------------------------------------------------------------+
| HipHop for PHP |
+----------------------------------------------------------------------+
| Copyright (c) 2010-2013 Facebook, Inc. (http://www.facebook.com) |
+----------------------------------------------------------------------+
| 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/compiler/statement/switch_statement.h"
#include "hphp/compiler/analysis/analysis_result.h"
#include "hphp/compiler/statement/statement_list.h"
#include "hphp/compiler/statement/case_statement.h"
#include "hphp/compiler/option.h"
#include "hphp/compiler/analysis/code_error.h"
#include "hphp/compiler/analysis/variable_table.h"
#include "hphp/compiler/expression/simple_variable.h"
#include "hphp/compiler/expression/scalar_expression.h"
#include "hphp/runtime/base/comparisons.h"
using namespace HPHP;
using std::string;
using std::set;
///////////////////////////////////////////////////////////////////////////////
// constructors/destructors
SwitchStatement::SwitchStatement
(STATEMENT_CONSTRUCTOR_PARAMETERS, ExpressionPtr exp, StatementListPtr cases)
: Statement(STATEMENT_CONSTRUCTOR_PARAMETER_VALUES(SwitchStatement)),
m_exp(exp), m_cases(cases) {
if (m_cases && m_exp->is(Expression::KindOfSimpleVariable)) {
for (int i = m_cases->getCount(); i--; ) {
CaseStatementPtr c(dynamic_pointer_cast<CaseStatement>((*m_cases)[i]));
if (c->getCondition() && c->getCondition()->hasEffect()) {
m_exp->setContext(Expression::LValue);
m_exp->setContext(Expression::NoLValueWrapper);
break;
}
}
}
}
StatementPtr SwitchStatement::clone() {
SwitchStatementPtr stmt(new SwitchStatement(*this));
stmt->m_cases = Clone(m_cases);
stmt->m_exp = Clone(m_exp);
return stmt;
}
int SwitchStatement::getRecursiveCount() const {
return 1 + (m_cases ? m_cases->getRecursiveCount() : 0);
}
///////////////////////////////////////////////////////////////////////////////
// parser functions
///////////////////////////////////////////////////////////////////////////////
// static analysis functions
void SwitchStatement::analyzeProgram(AnalysisResultPtr ar) {
m_exp->analyzeProgram(ar);
if (m_cases) m_cases->analyzeProgram(ar);
if (ar->getPhase() == AnalysisResult::AnalyzeAll &&
m_exp->is(Expression::KindOfSimpleVariable)) {
SimpleVariablePtr exp = dynamic_pointer_cast<SimpleVariable>(m_exp);
if (exp && exp->getSymbol() && exp->getSymbol()->isClassName()) {
// Mark some classes as volitle since the name is used in switch
for (int i = 0; i < m_cases->getCount(); i++) {
CaseStatementPtr stmt =
dynamic_pointer_cast<CaseStatement>((*m_cases)[i]);
assert(stmt);
ExpressionPtr caseCond = stmt->getCondition();
if (caseCond && caseCond->isScalar()) {
ScalarExpressionPtr name =
dynamic_pointer_cast<ScalarExpression>(caseCond);
if (name && name->isLiteralString()) {
string className = name->getLiteralString();
ClassScopePtr cls = ar->findClass(Util::toLower(className));
if (cls && cls->isUserClass()) {
cls->setVolatile();
}
}
}
}
// Also note this down as code error
ConstructPtr self = shared_from_this();
Compiler::Error(Compiler::ConditionalClassLoading, self);
}
}
}
bool SwitchStatement::hasDecl() const {
return m_cases && m_cases->hasDecl();
}
bool SwitchStatement::hasRetExp() const {
return m_cases && m_cases->hasRetExp();
}
ConstructPtr SwitchStatement::getNthKid(int n) const {
switch (n) {
case 0:
return m_exp;
case 1:
return m_cases;
default:
assert(false);
break;
}
return ConstructPtr();
}
int SwitchStatement::getKidCount() const {
return 2;
}
void SwitchStatement::setNthKid(int n, ConstructPtr cp) {
switch (n) {
case 0:
m_exp = dynamic_pointer_cast<Expression>(cp);
break;
case 1:
m_cases = dynamic_pointer_cast<StatementList>(cp);
break;
default:
assert(false);
break;
}
}
void SwitchStatement::inferTypes(AnalysisResultPtr ar) {
// we optimize the most two common cases of switch statements
bool allInteger = true;
bool allString = true;
if (m_cases && m_cases->getCount()) {
for (int i = 0; i < m_cases->getCount(); i++) {
CaseStatementPtr stmt =
dynamic_pointer_cast<CaseStatement>((*m_cases)[i]);
if (!stmt->getCondition()) {
if (m_cases->getCount() == 1) allInteger = allString = false;
} else {
if (!stmt->isLiteralInteger()) allInteger = false;
if (!stmt->isLiteralString()) allString = false;
}
}
}
if (allInteger && allString) {
allInteger = allString = false;
}
TypePtr ret = m_exp->inferAndCheck(ar, Type::Some, false);
// these are the cases where toInt64(x) is OK for the switch statement
if (allInteger && (ret->is(Type::KindOfInt32) || ret->is(Type::KindOfInt64))) {
m_exp->setExpectedType(Type::Int64);
}
if (ret->is(Type::KindOfObject) && ret->isSpecificObject()) {
m_exp->setExpectedType(Type::Object);
}
ConstructPtr self = shared_from_this();
if (m_cases && m_cases->getCount()) {
int defaultCount = 0;
for (int i = 0; i < m_cases->getCount(); i++) {
CaseStatementPtr stmt =
dynamic_pointer_cast<CaseStatement>((*m_cases)[i]);
stmt->inferAndCheck(ar, Type::Some, false);
ExpressionPtr cond = stmt->getCondition();
if (!cond) {
defaultCount++;
}
}
// TODO: this really belongs in analyzeProgram()
if (defaultCount > 1 && getScope()->isFirstPass()) {
Compiler::Error(Compiler::MoreThanOneDefault, m_cases);
}
}
}
///////////////////////////////////////////////////////////////////////////////
void SwitchStatement::outputCodeModel(CodeGenerator &cg) {
auto numProps = 2;
if (m_cases != nullptr) numProps++;
cg.printObjectHeader("SwitchStatement", numProps);
cg.printPropertyHeader("expression");
m_exp->outputCodeModel(cg);
if (m_cases != nullptr) {
cg.printPropertyHeader("caseStatements");
cg.printStatementVector(m_cases);
}
cg.printPropertyHeader("location");
cg.printLocation(this->getLocation());
cg.printObjectFooter();
}
///////////////////////////////////////////////////////////////////////////////
// code generation functions
void SwitchStatement::outputPHP(CodeGenerator &cg, AnalysisResultPtr ar) {
cg_printf("switch (");
m_exp->outputPHP(cg, ar);
cg_printf(") {\n");
if (m_cases) m_cases->outputPHP(cg, ar);
cg_printf("}\n");
}