bool ExpressionList::getScalarValue(Variant &value) {
if (m_arrayElements) {
if (isScalarArrayPairs()) {
ArrayInit init(m_exps.size());
for (unsigned int i = 0; i < m_exps.size(); i++) {
ArrayPairExpressionPtr exp =
dynamic_pointer_cast<ArrayPairExpression>(m_exps[i]);
ExpressionPtr name = exp->getName();
ExpressionPtr val = exp->getValue();
if (!name) {
Variant v;
bool ret = val->getScalarValue(v);
if (!ret) ASSERT(false);
init.set(v);
} else {
Variant n;
Variant v;
bool ret1 = name->getScalarValue(n);
bool ret2 = val->getScalarValue(v);
if (!(ret1 && ret2)) return ExpressionPtr();
init.set(n, v);
}
}
value = Array(init.create());
return true;
}
return false;
}
if (m_kind != ListKindParam && !hasEffect()) {
ExpressionPtr v(listValue());
return v ? v->getScalarValue(value) : false;
}
return false;
}
bool ExpressionList::getScalarValue(Variant &value) {
if (m_elems_kind != ElemsKind::None) {
if (isScalarArrayPairs()) {
ArrayInit init(m_exps.size(), ArrayInit::Mixed{});
for (unsigned int i = 0; i < m_exps.size(); i++) {
ArrayPairExpressionPtr exp =
dynamic_pointer_cast<ArrayPairExpression>(m_exps[i]);
ExpressionPtr name = exp->getName();
ExpressionPtr val = exp->getValue();
if (!name) {
Variant v;
bool ret = val->getScalarValue(v);
if (!ret) assert(false);
init.append(v);
} else {
Variant n;
Variant v;
bool ret1 = name->getScalarValue(n);
bool ret2 = val->getScalarValue(v);
if (!(ret1 && ret2)) return false;
init.setKeyUnconverted(n, v);
}
}
value = Array(init.create());
return true;
}
return false;
}
if (m_kind != ListKindParam && !hasEffect()) {
ExpressionPtr v(listValue());
return v ? v->getScalarValue(value) : false;
}
return false;
}
bool ExpressionList::getScalarValue(Variant &value) {
if (!isScalarArrayPairs()) return false;
ArrayInit init(m_exps.size());
for (unsigned int i = 0; i < m_exps.size(); i++) {
ArrayPairExpressionPtr exp =
dynamic_pointer_cast<ArrayPairExpression>(m_exps[i]);
ExpressionPtr name = exp->getName();
ExpressionPtr val = exp->getValue();
if (!name) {
Variant v;
bool ret = val->getScalarValue(v);
if (!ret) ASSERT(false);
init.set(i, v);
} else {
Variant n;
Variant v;
bool ret1 = name->getScalarValue(n);
bool ret2 = val->getScalarValue(v);
if (!(ret1 && ret2)) ASSERT(false);
init.set(i, n, v);
}
}
value = Array(init.create());
return true;
}
unsigned int ExpressionList::checkIntegerKeys(int64 &max) const {
ASSERT(m_arrayElements);
max = 0;
set<int64> keys;
for (unsigned int i = 0; i < m_exps.size(); i++) {
ArrayPairExpressionPtr ap =
dynamic_pointer_cast<ArrayPairExpression>(m_exps[i]);
ExpressionPtr name = ap->getName();
if (!name) return 0;
Variant value;
bool ret = name->getScalarValue(value);
if (!ret) return 0;
if (!value.isInteger()) return 0;
int64 v = value.toInt64();
if (i == 0) {
max = v;
} else if (max < v) {
max = v;
}
keys.insert(v);
}
if (max >= 0) {
max++;
} else {
max = 0;
}
return keys.size();
}
ExpressionPtr ConstantExpression::preOptimize(AnalysisResultConstPtr ar) {
if (ar->getPhase() < AnalysisResult::FirstPreOptimize) {
return ExpressionPtr();
}
ConstructPtr decl;
while (!isScalar() && !m_dynamic && !(m_context & LValue)) {
const Symbol *sym = resolveNS(ar);
if (sym &&
(!const_cast<Symbol*>(sym)->checkDefined() || sym->isDynamic())) {
sym = 0;
m_dynamic = true;
}
if (!sym) break;
if (!sym->isSystem()) BlockScope::s_constMutex.lock();
ExpressionPtr value = dynamic_pointer_cast<Expression>(sym->getValue());
if (!sym->isSystem()) BlockScope::s_constMutex.unlock();
if (!value || !value->isScalar()) {
if (!m_depsSet && sym->getDeclaration()) {
sym->getDeclaration()->getScope()->addUse(
getScope(), BlockScope::UseKindConstRef);
m_depsSet = true;
}
break;
}
Variant scalarValue;
if (value->getScalarValue(scalarValue) &&
!scalarValue.isAllowedAsConstantValue()) {
// block further optimization
const_cast<Symbol*>(sym)->setDynamic();
m_dynamic = true;
break;
}
if (sym->isSystem() && !value->is(KindOfScalarExpression)) {
if (ExpressionPtr opt = value->preOptimize(ar)) {
value = opt;
}
}
ExpressionPtr rep = Clone(value, getScope());
rep->setComment(getText());
copyLocationTo(rep);
return replaceValue(rep);
}
return ExpressionPtr();
}
unsigned int ExpressionList::checkLitstrKeys() const {
ASSERT(m_arrayElements);
std::set<string> keys;
for (unsigned int i = 0; i < m_exps.size(); i++) {
ArrayPairExpressionPtr ap =
dynamic_pointer_cast<ArrayPairExpression>(m_exps[i]);
ExpressionPtr name = ap->getName();
if (!name) return 0;
Variant value;
bool ret = name->getScalarValue(value);
if (!ret) return 0;
if (!value.isString()) return 0;
String str = value.toString();
if (str->isInteger()) return 0;
string s(str.data(), str.size());
keys.insert(s);
}
return keys.size();
}
static bool isEquivRedecl(const std::string &name,
ExpressionPtr exp,
ModifierExpressionPtr modif,
Symbol * symbol) {
assert(exp);
assert(modif);
assert(symbol);
if (symbol->getName() != name ||
symbol->isProtected() != modif->isProtected() ||
symbol->isPrivate() != modif->isPrivate() ||
symbol->isPublic() != modif->isPublic() ||
symbol->isStatic() != modif->isStatic())
return false;
auto symDeclExp =
dynamic_pointer_cast<Expression>(symbol->getDeclaration());
if (!exp) return !symDeclExp;
Variant v1, v2;
auto s1 = exp->getScalarValue(v1);
auto s2 = symDeclExp->getScalarValue(v2);
if (s1 != s2) return false;
if (s1) return same(v1, v2);
return exp->getText() == symDeclExp->getText();
}
ExpressionPtr AssignmentExpression::preOptimize(AnalysisResultConstPtr ar) {
if (Option::EliminateDeadCode &&
ar->getPhase() >= AnalysisResult::FirstPreOptimize) {
// otherwise used & needed flags may not be up to date yet
ExpressionPtr rep = optimize(ar);
if (rep) return rep;
}
if (m_variable->getContainedEffects() & ~(CreateEffect|AccessorEffect)) {
return ExpressionPtr();
}
ExpressionPtr val = m_value;
while (val) {
if (val->is(KindOfExpressionList)) {
ExpressionListPtr el(static_pointer_cast<ExpressionList>(val));
val = el->listValue();
continue;
}
if (val->is(KindOfAssignmentExpression)) {
val = static_pointer_cast<AssignmentExpression>(val)->m_value;
continue;
}
break;
}
if (val && val->isScalar()) {
if (val != m_value) {
ExpressionListPtr rep(new ExpressionList(
getScope(), getLocation(),
KindOfExpressionList,
ExpressionList::ListKindWrapped));
rep->addElement(m_value);
m_value = val->clone();
rep->addElement(static_pointer_cast<Expression>(shared_from_this()));
return replaceValue(rep);
}
if (!m_ref && m_variable->is(KindOfArrayElementExpression)) {
ArrayElementExpressionPtr ae(
static_pointer_cast<ArrayElementExpression>(m_variable));
ExpressionPtr avar(ae->getVariable());
ExpressionPtr aoff(ae->getOffset());
if (!aoff || aoff->isScalar()) {
avar = avar->getCanonLVal();
while (avar) {
if (avar->isScalar()) {
Variant v,o,r;
if (!avar->getScalarValue(v)) break;
if (!val->getScalarValue(r)) break;
try {
g_context->setThrowAllErrors(true);
if (aoff) {
if (!aoff->getScalarValue(o)) break;
v.set(o, r);
} else {
v.append(r);
}
g_context->setThrowAllErrors(false);
} catch (...) {
break;
}
ExpressionPtr rep(
new AssignmentExpression(
getScope(), getLocation(), KindOfAssignmentExpression,
m_variable->replaceValue(Clone(ae->getVariable())),
makeScalarExpression(ar, v), false));
if (!isUnused()) {
ExpressionListPtr el(
new ExpressionList(
getScope(), getLocation(), KindOfExpressionList,
ExpressionList::ListKindWrapped));
el->addElement(rep);
el->addElement(val);
rep = el;
}
return replaceValue(rep);
}
avar = avar->getCanonPtr();
}
g_context->setThrowAllErrors(false);
}
}
}
return ExpressionPtr();
}
void FunctionScope::outputCPPClassMap(CodeGenerator &cg, AnalysisResultPtr ar) {
int attribute = ClassInfo::IsNothing;
if (!isUserFunction()) attribute |= ClassInfo::IsSystem;
if (isRedeclaring()) attribute |= ClassInfo::IsRedeclared;
if (isVolatile()) attribute |= ClassInfo::IsVolatile;
if (isRefReturn()) attribute |= ClassInfo::IsReference;
if (isProtected()) {
attribute |= ClassInfo::IsProtected;
} else if (isPrivate()) {
attribute |= ClassInfo::IsPrivate;
} else {
attribute |= ClassInfo::IsPublic;
}
if (isAbstract()) attribute |= ClassInfo::IsAbstract;
if (isStatic() && !isStaticMethodAutoFixed()) {
attribute |= ClassInfo::IsStatic;
}
if (isFinal()) attribute |= ClassInfo::IsFinal;
if (!m_docComment.empty()) attribute |= ClassInfo::HasDocComment;
// Use the original cased name, for reflection to work correctly.
cg.printf("(const char *)0x%04X, \"%s\", NULL, NULL,\n", attribute,
getOriginalName().c_str());
if (!m_docComment.empty()) {
char *dc = string_cplus_escape(m_docComment.c_str());
cg.printf("\"%s\",\n", dc);
free(dc);
}
Variant defArg;
for (int i = 0; i < m_maxParam; i++) {
int attr = ClassInfo::IsNothing;
if (i >= m_minParam) attr |= ClassInfo::IsOptional;
if (isRefParam(i)) attr |= ClassInfo::IsReference;
cg.printf("(const char *)0x%04X, \"%s\", \"%s\", ",
attr, m_paramNames[i].c_str(),
Util::toLower(m_paramTypes[i]->getPHPName()).c_str());
if (i >= m_minParam) {
MethodStatementPtr m =
dynamic_pointer_cast<MethodStatement>(getStmt());
if (m) {
ExpressionListPtr params = m->getParams();
assert(i < params->getCount());
ParameterExpressionPtr param =
dynamic_pointer_cast<ParameterExpression>((*params)[i]);
assert(param);
ExpressionPtr def = param->defaultValue();
if (!def->isScalar() || !def->getScalarValue(defArg)) {
defArg = "1";
}
} else {
defArg = "1";
}
char *s = string_cplus_escape(f_serialize(defArg).data());
cg.printf("\"%s\",\n", s);
free(s);
} else {
cg.printf("\"\",\n");
}
}
cg.printf("NULL,\n");
m_variables->outputCPPStaticVariables(cg, ar);
}
StatementPtr IfStatement::preOptimize(AnalysisResultPtr ar) {
if (ar->getPhase() < AnalysisResult::FirstPreOptimize) {
return StatementPtr();
}
// we cannot optimize away the code inside if statement, because
// there may be a goto that goes into if statement.
if (hasReachableLabel()) {
return StatementPtr();
}
bool changed = false;
int i;
int j;
Variant value;
bool hoist = false;
for (i = 0; i < m_stmts->getCount(); i++) {
IfBranchStatementPtr branch =
dynamic_pointer_cast<IfBranchStatement>((*m_stmts)[i]);
ExpressionPtr condition = branch->getCondition();
if (!condition) {
StatementPtr stmt = branch->getStmt();
if (stmt) {
if (!i &&
((getFunctionScope() && !getFunctionScope()->inPseudoMain()) ||
!stmt->hasDecl())) {
hoist = true;
break;
}
if (stmt->is(KindOfIfStatement)) {
StatementListPtr sub_stmts =
dynamic_pointer_cast<IfStatement>(stmt)->m_stmts;
m_stmts->removeElement(i);
changed = true;
for (j = 0; j < sub_stmts->getCount(); j++) {
m_stmts->insertElement((*sub_stmts)[j], i++);
}
}
}
break;
} else if (condition->isScalar() &&
condition->getScalarValue(value)) {
if (value.toBoolean()) {
hoist = !i &&
((getFunctionScope() && !getFunctionScope()->inPseudoMain()) ||
!branch->hasDecl());
break;
} else {
m_stmts->removeElement(i--);
changed = true;
}
}
}
if (!changed && i && i == m_stmts->getCount()) return StatementPtr();
// either else branch or if (true) branch without further declarations
i++;
while (i < m_stmts->getCount()) {
m_stmts->removeElement(i);
changed = true;
}
// if there is only one branch left, return stmt.
if (hoist) {
IfBranchStatementPtr branch =
dynamic_pointer_cast<IfBranchStatement>((*m_stmts)[0]);
return branch->getStmt() ? branch->getStmt() : NULL_STATEMENT();
} else if (m_stmts->getCount() == 0) {
return NULL_STATEMENT();
} else {
return changed ? static_pointer_cast<Statement>(shared_from_this())
: StatementPtr();
}
}
void FunctionScope::outputCPPClassMap(CodeGenerator &cg, AnalysisResultPtr ar) {
int attribute = ClassInfo::IsNothing;
if (!isUserFunction()) attribute |= ClassInfo::IsSystem;
if (isRedeclaring()) attribute |= ClassInfo::IsRedeclared;
if (isVolatile()) attribute |= ClassInfo::IsVolatile;
if (isRefReturn()) attribute |= ClassInfo::IsReference;
if (isProtected()) {
attribute |= ClassInfo::IsProtected;
} else if (isPrivate()) {
attribute |= ClassInfo::IsPrivate;
} else {
attribute |= ClassInfo::IsPublic;
}
if (isAbstract()) attribute |= ClassInfo::IsAbstract;
if (isStatic()) {
attribute |= ClassInfo::IsStatic;
}
if (isFinal()) attribute |= ClassInfo::IsFinal;
if (isVariableArgument()) {
attribute |= ClassInfo::VariableArguments;
}
if (isReferenceVariableArgument()) {
attribute |= ClassInfo::RefVariableArguments;
}
if (isMixedVariableArgument()) {
attribute |= ClassInfo::MixedVariableArguments;
}
attribute |= m_attributeClassInfo;
if (!m_docComment.empty() && Option::GenerateDocComments) {
attribute |= ClassInfo::HasDocComment;
} else {
attribute &= ~ClassInfo::HasDocComment;
}
// Use the original cased name, for reflection to work correctly.
cg_printf("(const char *)0x%04X, \"%s\", \"%s\", (const char *)%d, "
"(const char *)%d, NULL, NULL,\n", attribute,
getOriginalName().c_str(),
m_stmt ? m_stmt->getLocation()->file : "",
m_stmt ? m_stmt->getLocation()->line0 : 0,
m_stmt ? m_stmt->getLocation()->line1 : 0);
if (!m_docComment.empty() && Option::GenerateDocComments) {
char *dc = string_cplus_escape(m_docComment.c_str(), m_docComment.size());
cg_printf("\"%s\",\n", dc);
free(dc);
}
Variant defArg;
for (int i = 0; i < m_maxParam; i++) {
int attr = ClassInfo::IsNothing;
if (i >= m_minParam) attr |= ClassInfo::IsOptional;
if (isRefParam(i)) attr |= ClassInfo::IsReference;
const std::string &tname = m_paramTypeSpecs[i] ?
m_paramTypeSpecs[i]->getPHPName() : "";
cg_printf("(const char *)0x%04X, \"%s\", \"%s\", ",
attr, m_paramNames[i].c_str(),
Util::toLower(tname).c_str());
if (i >= m_minParam) {
MethodStatementPtr m =
dynamic_pointer_cast<MethodStatement>(getStmt());
if (m) {
ExpressionListPtr params = m->getParams();
assert(i < params->getCount());
ParameterExpressionPtr param =
dynamic_pointer_cast<ParameterExpression>((*params)[i]);
assert(param);
ExpressionPtr def = param->defaultValue();
string sdef = def->getText();
char *esdef = string_cplus_escape(sdef.data(), sdef.size());
if (!def->isScalar() || !def->getScalarValue(defArg)) {
/**
* Special value runtime/ext/ext_reflection.cpp can check and throw.
* If we want to avoid seeing this so to make getDefaultValue()
* work better for reflections, we will have to implement
* getScalarValue() to greater extent under compiler/expressions.
*/
cg_printf("\"\x01\", \"%s\",\n", esdef);
} else {
String str = f_serialize(defArg);
char *s = string_cplus_escape(str.data(), str.size());
cg_printf("\"%s\", \"%s\",\n", s, esdef);
free(s);
}
free(esdef);
} else {
char *def = string_cplus_escape(m_paramDefaults[i].data(),
m_paramDefaults[i].size());
char *defText = string_cplus_escape(m_paramDefaultTexts[i].data(),
m_paramDefaultTexts[i].size());
cg_printf("\"%s\", \"%s\",\n", def, defText);
free(def);
free(defText);
}
} else {
cg_printf("\"\", \"\",\n");
}
}
cg_printf("NULL,\n");
m_variables->outputCPPStaticVariables(cg, ar);
}
