void FunctionScope::init(AnalysisResultConstPtr ar) {
m_dynamicInvoke = false;
if (isNamed("__autoload")) {
setVolatile();
}
// FileScope's flags are from parser, but VariableTable has more flags
// coming from type inference phase. So we are tranferring these flags
// just for better modularization between FileScope and VariableTable.
if (m_attribute & FileScope::ContainsDynamicVariable) {
m_variables->setAttribute(VariableTable::ContainsDynamicVariable);
}
if (m_attribute & FileScope::ContainsLDynamicVariable) {
m_variables->setAttribute(VariableTable::ContainsLDynamicVariable);
}
if (m_attribute & FileScope::ContainsExtract) {
m_variables->setAttribute(VariableTable::ContainsExtract);
}
if (m_attribute & FileScope::ContainsAssert) {
m_variables->setAttribute(VariableTable::ContainsAssert);
}
if (m_attribute & FileScope::ContainsCompact) {
m_variables->setAttribute(VariableTable::ContainsCompact);
}
if (m_attribute & FileScope::ContainsUnset) {
m_variables->setAttribute(VariableTable::ContainsUnset);
}
if (m_attribute & FileScope::ContainsGetDefinedVars) {
m_variables->setAttribute(VariableTable::ContainsGetDefinedVars);
}
if (m_stmt && Option::AllVolatile && !m_pseudoMain && !m_method) {
m_volatile = true;
}
if (!m_method && Option::DynamicInvokeFunctions.find(m_scopeName) !=
Option::DynamicInvokeFunctions.end()) {
setDynamicInvoke();
}
if (m_modifiers) {
m_virtual = m_modifiers->isAbstract();
}
if (m_stmt) {
MethodStatementPtr stmt = dynamic_pointer_cast<MethodStatement>(m_stmt);
StatementListPtr stmts = stmt->getStmts();
if (stmts) {
for (int i = 0; i < stmts->getCount(); i++) {
StatementPtr stmt = (*stmts)[i];
stmt->setFileLevel();
if (stmt->is(Statement::KindOfExpStatement)) {
ExpStatementPtr expStmt = dynamic_pointer_cast<ExpStatement>(stmt);
ExpressionPtr exp = expStmt->getExpression();
exp->setTopLevel();
}
}
}
}
}
void FunctionScope::init(AnalysisResultConstPtr ar) {
m_dynamicInvoke = false;
bool canInline = true;
if (m_pseudoMain) {
canInline = false;
m_variables->forceVariants(ar, VariableTable::AnyVars);
setReturnType(ar, Type::Variant);
}
if (m_refReturn) {
m_returnType = Type::Variant;
}
if (!strcasecmp(m_name.c_str(), "__autoload")) {
setVolatile();
}
// FileScope's flags are from parser, but VariableTable has more flags
// coming from type inference phase. So we are tranferring these flags
// just for better modularization between FileScope and VariableTable.
if (m_attribute & FileScope::ContainsDynamicVariable) {
m_variables->setAttribute(VariableTable::ContainsDynamicVariable);
}
if (m_attribute & FileScope::ContainsLDynamicVariable) {
m_variables->setAttribute(VariableTable::ContainsLDynamicVariable);
}
if (m_attribute & FileScope::ContainsExtract) {
m_variables->setAttribute(VariableTable::ContainsExtract);
}
if (m_attribute & FileScope::ContainsAssert) {
m_variables->setAttribute(VariableTable::ContainsAssert);
}
if (m_attribute & FileScope::ContainsCompact) {
m_variables->setAttribute(VariableTable::ContainsCompact);
}
if (m_attribute & FileScope::ContainsUnset) {
m_variables->setAttribute(VariableTable::ContainsUnset);
}
if (m_attribute & FileScope::ContainsGetDefinedVars) {
m_variables->setAttribute(VariableTable::ContainsGetDefinedVars);
}
if (m_stmt && Option::AllVolatile && !m_pseudoMain && !m_method) {
m_volatile = true;
}
m_dynamic = Option::IsDynamicFunction(m_method, m_name) ||
Option::EnableEval == Option::FullEval || Option::AllDynamic;
if (!m_method && Option::DynamicInvokeFunctions.find(m_name) !=
Option::DynamicInvokeFunctions.end()) {
setDynamicInvoke();
}
if (m_modifiers) {
m_virtual = m_modifiers->isAbstract();
}
if (m_stmt) {
MethodStatementPtr stmt = dynamic_pointer_cast<MethodStatement>(m_stmt);
StatementListPtr stmts = stmt->getStmts();
if (stmts) {
if (stmts->getRecursiveCount() > Option::InlineFunctionThreshold)
canInline = false;
for (int i = 0; i < stmts->getCount(); i++) {
StatementPtr stmt = (*stmts)[i];
stmt->setFileLevel();
if (stmt->is(Statement::KindOfExpStatement)) {
ExpStatementPtr expStmt = dynamic_pointer_cast<ExpStatement>(stmt);
ExpressionPtr exp = expStmt->getExpression();
exp->setTopLevel();
}
}
}
} else {
canInline = false;
}
m_inlineable = canInline;
}
FunctionScope::FunctionScope(AnalysisResultPtr ar, bool method,
const std::string &name, StatementPtr stmt,
bool reference, int minParam, int maxParam,
ModifierExpressionPtr modifiers,
int attribute, const std::string &docComment,
FileScopePtr file,
bool inPseudoMain /* = false */)
: BlockScope(name, docComment, stmt, BlockScope::FunctionScope),
m_method(method), m_file(file), m_minParam(0), m_maxParam(0),
m_attribute(attribute), m_refReturn(reference), m_modifiers(modifiers),
m_virtual(false), m_overriding(false), m_redeclaring(-1),
m_volatile(false), m_ignored(false), m_pseudoMain(inPseudoMain),
m_magicMethod(false), m_system(false), m_inlineable(false), m_sep(false),
m_containsThis(false), m_staticMethodAutoFixed(false),
m_callTempCountMax(0), m_callTempCountCurrent(0) {
bool canInline = true;
if (inPseudoMain) {
canInline = false;
m_variables->forceVariants(ar);
setReturnType(ar, Type::Variant);
}
setParamCounts(ar, minParam, maxParam);
if (m_refReturn) {
m_returnType = Type::Variant;
}
// FileScope's flags are from parser, but VariableTable has more flags
// coming from type inference phase. So we are tranferring these two
// flags just for better modularization between FileScope and VariableTable.
if (m_attribute & FileScope::ContainsDynamicVariable) {
m_variables->setAttribute(VariableTable::ContainsDynamicVariable);
}
if (m_attribute & FileScope::ContainsLDynamicVariable) {
m_variables->setAttribute(VariableTable::ContainsLDynamicVariable);
}
if (m_attribute & FileScope::ContainsExtract) {
m_variables->setAttribute(VariableTable::ContainsExtract);
}
if (m_attribute & FileScope::ContainsCompact) {
m_variables->setAttribute(VariableTable::ContainsCompact);
}
if (m_attribute & FileScope::ContainsUnset) {
m_variables->setAttribute(VariableTable::ContainsUnset);
}
if (m_attribute & FileScope::ContainsGetDefinedVars) {
m_variables->setAttribute(VariableTable::ContainsGetDefinedVars);
}
if (m_stmt && Option::AllVolatile) {
m_volatile = true;
}
m_dynamic = Option::IsDynamicFunction(method, m_name) ||
Option::EnableEval == Option::FullEval;
if (modifiers) {
m_virtual = modifiers->isAbstract();
}
if (m_stmt) {
MethodStatementPtr stmt = dynamic_pointer_cast<MethodStatement>(m_stmt);
StatementListPtr stmts = stmt->getStmts();
if (stmts) {
if (stmts->getRecursiveCount() > Option::InlineFunctionThreshold)
canInline = false;
for (int i = 0; i < stmts->getCount(); i++) {
StatementPtr stmt = (*stmts)[i];
stmt->setFileLevel();
if (stmt->is(Statement::KindOfExpStatement)) {
ExpStatementPtr expStmt = dynamic_pointer_cast<ExpStatement>(stmt);
ExpressionPtr exp = expStmt->getExpression();
exp->setTopLevel();
}
}
}
} else {
canInline = false;
}
m_inlineable = canInline;
}
