void IncludeExpression::analyzeProgram(AnalysisResultPtr ar) {
if (!m_include.empty()) {
if (ar->getPhase() == AnalysisResult::AnalyzeAll ||
ar->getPhase() == AnalysisResult::AnalyzeFinal) {
analyzeInclude(ar, m_include);
}
}
VariableTablePtr var = getScope()->getVariables();
var->setAttribute(VariableTable::ContainsLDynamicVariable);
UnaryOpExpression::analyzeProgram(ar);
}
void SimpleVariable::analyzeProgram(AnalysisResultPtr ar) {
m_superGlobal = BuiltinSymbols::IsSuperGlobal(m_name);
m_superGlobalType = BuiltinSymbols::GetSuperGlobalType(m_name);
VariableTablePtr variables = getScope()->getVariables();
if (m_superGlobal) {
variables->setAttribute(VariableTable::NeedGlobalPointer);
} else if (m_name == "GLOBALS") {
m_globals = true;
} else {
m_sym = variables->addSymbol(m_name);
}
if (ar->getPhase() == AnalysisResult::AnalyzeAll) {
if (FunctionScopePtr func = getFunctionScope()) {
if (m_name == "this" && getClassScope()) {
func->setContainsThis();
m_this = true;
if (!hasContext(ObjectContext)) {
func->setContainsBareThis();
if (variables->getAttribute(VariableTable::ContainsDynamicVariable)) {
ClassScopePtr cls = getClassScope();
TypePtr t = cls->isRedeclaring() ?
Type::Variant : Type::CreateObjectType(cls->getName());
variables->add(m_sym, t, true, ar, shared_from_this(),
getScope()->getModifiers());
}
}
}
if (m_sym && !(m_context & AssignmentLHS) &&
!((m_context & UnsetContext) && (m_context & LValue))) {
m_sym->setUsed();
}
}
} else if (ar->getPhase() == AnalysisResult::AnalyzeFinal) {
if (m_sym && !m_sym->isSystem() &&
!(getContext() &
(LValue|RefValue|RefParameter|UnsetContext|ExistContext)) &&
m_sym->getDeclaration().get() == this &&
!variables->getAttribute(VariableTable::ContainsLDynamicVariable) &&
!getScope()->is(BlockScope::ClassScope)) {
if (getScope()->inPseudoMain()) {
Compiler::Error(Compiler::UseUndeclaredGlobalVariable,
shared_from_this());
} else {
Compiler::Error(Compiler::UseUndeclaredVariable, shared_from_this());
}
}
}
}
void GlobalStatement::inferTypes(AnalysisResultPtr ar) {
BlockScopePtr scope = ar->getScope();
scope->getVariables()->setAttribute(VariableTable::InsideGlobalStatement);
for (int i = 0; i < m_exp->getCount(); i++) {
ExpressionPtr exp = (*m_exp)[i];
if (exp->is(Expression::KindOfSimpleVariable)) {
SimpleVariablePtr var = dynamic_pointer_cast<SimpleVariable>(exp);
VariableTablePtr variables = scope->getVariables();
const std::string &name = var->getName();
/* If we have already seen this variable in the current scope and
it is not a global variable, record this variable as "redeclared"
which will force Variant type.
*/
variables->checkRedeclared(name, KindOfGlobalStatement);
/* If this is not a top-level global statement, the variable also
needs to be Variant type. This should not be a common use case in
php code.
*/
if (!isTopLevel()) {
variables->addNestedGlobal(name);
}
var->setContext(Expression::Declaration);
var->inferAndCheck(ar, NEW_TYPE(Any), true);
if (variables->needLocalCopy(name)) {
variables->forceVariant(ar, name);
variables->setAttribute(VariableTable::NeedGlobalPointer);
}
ConstructPtr decl =
ar->getVariables()->getDeclaration(var->getName());
if (decl) {
ar->getDependencyGraph()->add(DependencyGraph::KindOfGlobalVariable,
ar->getName(),
var->getName(), var,
var->getName(), decl);
}
} else {
if (ar->isFirstPass()) {
ar->getCodeError()->record(shared_from_this(), CodeError::UseDynamicGlobal, exp);
}
m_dynamicGlobal = true;
}
}
FunctionScopePtr func = ar->getFunctionScope();
scope->getVariables()->clearAttribute(VariableTable::InsideGlobalStatement);
}
void IncludeExpression::analyzeProgram(AnalysisResultPtr ar) {
if (!m_include.empty()) {
if (ar->getPhase() == AnalysisResult::AnalyzeInclude) {
ar->parseOnDemand(m_include);
} else if (ar->getPhase() == AnalysisResult::AnalyzeAll) {
analyzeInclude(ar, m_include);
}
}
if (!getScope()->inPseudoMain() && !m_privateScope) {
VariableTablePtr var = getScope()->getVariables();
var->setAttribute(VariableTable::ContainsLDynamicVariable);
var->forceVariants(ar, VariableTable::AnyVars);
}
UnaryOpExpression::analyzeProgram(ar);
}
void IncludeExpression::analyzeProgram(AnalysisResultPtr ar) {
if (!m_include.empty()) {
if (ar->getPhase() == AnalysisResult::AnalyzeAll ||
ar->getPhase() == AnalysisResult::AnalyzeFinal) {
if (analyzeInclude(ar, m_include)) {
FunctionScopePtr func = getFunctionScope();
getFileScope()->addIncludeDependency(ar, m_include,
func && func->isInlined());
}
}
}
VariableTablePtr var = getScope()->getVariables();
var->setAttribute(VariableTable::ContainsLDynamicVariable);
var->forceVariants(ar, VariableTable::AnyVars);
UnaryOpExpression::analyzeProgram(ar);
}
void DynamicFunctionCall::analyzeProgram(AnalysisResultPtr ar) {
FunctionCall::analyzeProgram(ar);
if (ar->getPhase() >= AnalysisResult::AnalyzeAll) {
if (!m_className.empty()) {
resolveClass();
}
if (!m_class) {
addUserClass(ar, m_className);
}
if (m_params) {
m_params->markParams(canInvokeFewArgs());
}
if (!m_class && m_className.empty()) {
FunctionScopePtr fs = getFunctionScope();
VariableTablePtr vt = fs->getVariables();
vt->setAttribute(VariableTable::ContainsDynamicFunctionCall);
}
}
}
void IncludeExpression::analyzeProgram(AnalysisResultPtr ar) {
if (ar->isFirstPass()) {
ConstructPtr self = shared_from_this();
if (m_op == T_INCLUDE || m_op == T_REQUIRE) {
ar->getCodeError()->record(self, CodeError::UseInclude, self);
}
}
string include = getCurrentInclude(ar);
if (!include.empty()) {
if (ar->getPhase() == AnalysisResult::AnalyzeInclude) {
analyzeInclude(ar, include);
}
}
if (!ar->getScope()->inPseudoMain()) {
VariableTablePtr var = ar->getScope()->getVariables();
var->setAttribute(VariableTable::ContainsLDynamicVariable);
var->forceVariants(ar);
}
UnaryOpExpression::analyzeProgram(ar);
}
/**
* ArrayElementExpression comes from:
*
* reference_variable[|expr]
* ->object_dim_list[|expr]
* encaps T_VARIABLE[expr]
* encaps ${T_STRING[expr]}
*/
TypePtr ArrayElementExpression::inferTypes(AnalysisResultPtr ar,
TypePtr type, bool coerce) {
ConstructPtr self = shared_from_this();
// handling $GLOBALS[...]
if (m_variable->is(Expression::KindOfSimpleVariable)) {
SimpleVariablePtr var =
dynamic_pointer_cast<SimpleVariable>(m_variable);
if (var->getName() == "GLOBALS") {
clearEffect(AccessorEffect);
m_global = true;
m_dynamicGlobal = true;
ar->getScope()->getVariables()->
setAttribute(VariableTable::NeedGlobalPointer);
VariableTablePtr vars = ar->getVariables();
if (m_offset && m_offset->is(Expression::KindOfScalarExpression)) {
ScalarExpressionPtr offset =
dynamic_pointer_cast<ScalarExpression>(m_offset);
if (offset->isLiteralString()) {
m_globalName = offset->getIdentifier();
if (!m_globalName.empty()) {
m_dynamicGlobal = false;
ar->getScope()->getVariables()->
setAttribute(VariableTable::NeedGlobalPointer);
TypePtr ret;
ConstructPtr decl = vars->getDeclaration(m_globalName);
if (decl) {
ar->getDependencyGraph()->
add(DependencyGraph::KindOfGlobalVariable,
ar->getName(),
m_globalName, self, m_globalName, decl);
}
if (coerce) {
ret = vars->add(m_globalName, type, true, ar, self,
ModifierExpressionPtr());
} else {
int p;
ret =
vars->checkVariable(m_globalName, type, coerce, ar, self, p);
}
ar->getScope()->getVariables()->addSuperGlobal(m_globalName);
return ret;
}
}
} else {
vars->setAttribute(VariableTable::ContainsDynamicVariable);
}
if (hasContext(LValue) || hasContext(RefValue)) {
if (ar->isFirstPass()) {
ar->getCodeError()->record(self, CodeError::UseLDynamicVariable,
self);
}
ar->getVariables()->forceVariants(ar);
ar->getVariables()->
setAttribute(VariableTable::ContainsLDynamicVariable);
} else {
if (ar->isFirstPass()) {
ar->getCodeError()->record(self, CodeError::UseRDynamicVariable,
self);
}
}
if (m_offset) {
m_offset->inferAndCheck(ar, NEW_TYPE(Primitive), false);
}
return m_implementedType = Type::Variant; // so not to lose values
}
}
if ((hasContext(LValue) || hasContext(RefValue)) &&
!hasContext(UnsetContext)) {
m_variable->setContext(LValue);
}
TypePtr varType;
if (m_offset) {
varType = m_variable->inferAndCheck(ar, NEW_TYPE(Sequence), false);
m_offset->inferAndCheck(ar, NEW_TYPE(Some), false);
} else {
if (hasContext(ExistContext) || hasContext(UnsetContext)) {
if (ar->isFirstPass()) {
ar->getCodeError()->record(self, CodeError::InvalidArrayElement,
self);
}
}
m_variable->inferAndCheck(ar, Type::Array, true);
}
if (varType && Type::SameType(varType, Type::String)) {
clearEffect(AccessorEffect);
m_implementedType.reset();
return Type::String;
}
if (varType && Type::SameType(varType, Type::Array)) {
clearEffect(AccessorEffect);
}
if (hasContext(LValue) || hasContext(RefValue)) setEffect(CreateEffect);
TypePtr ret = propagateTypes(ar, Type::Variant);
m_implementedType = Type::Variant;
return ret; // so not to lose values
}
void SimpleVariable::analyzeProgram(AnalysisResultPtr ar) {
m_superGlobal = BuiltinSymbols::IsSuperGlobal(m_name);
m_superGlobalType = BuiltinSymbols::GetSuperGlobalType(m_name);
VariableTablePtr variables = getScope()->getVariables();
if (m_superGlobal) {
variables->setAttribute(VariableTable::NeedGlobalPointer);
} else if (m_name == "GLOBALS") {
m_globals = true;
} else {
m_sym = variables->addDeclaredSymbol(m_name, shared_from_this());
}
if (ar->getPhase() == AnalysisResult::AnalyzeAll) {
if (FunctionScopePtr func = getFunctionScope()) {
if (m_name == "this" && func->mayContainThis()) {
func->setContainsThis();
m_this = true;
if (!hasContext(ObjectContext)) {
bool unset = hasAllContext(UnsetContext | LValue);
func->setContainsBareThis(
true,
hasAnyContext(RefValue | RefAssignmentLHS) ||
m_sym->isRefClosureVar() || unset);
if (variables->getAttribute(VariableTable::ContainsDynamicVariable)) {
ClassScopePtr cls = getClassScope();
TypePtr t = !cls || cls->isRedeclaring() ?
Type::Variant : Type::CreateObjectType(cls->getName());
variables->add(m_sym, t, true, ar, shared_from_this(),
getScope()->getModifiers());
}
}
}
if (m_sym && !(m_context & AssignmentLHS) &&
!((m_context & UnsetContext) && (m_context & LValue))) {
m_sym->setUsed();
}
}
} else if (ar->getPhase() == AnalysisResult::AnalyzeFinal) {
if (m_sym && !m_this) {
if (!m_sym->isSystem() &&
!(getContext() &
(LValue|RefValue|RefParameter|UnsetContext|ExistContext)) &&
m_sym->getDeclaration().get() == this) {
assert(!m_sym->isParameter());
if (!variables->getAttribute(VariableTable::ContainsLDynamicVariable) &&
!getScope()->is(BlockScope::ClassScope)) {
if (getScope()->inPseudoMain()) {
Compiler::Error(Compiler::UseUndeclaredGlobalVariable,
shared_from_this());
} else if (!m_sym->isClosureVar()) {
Compiler::Error(Compiler::UseUndeclaredVariable,
shared_from_this());
}
}
}
// check function parameter that can occur in lval context
if (m_sym->isParameter() &&
m_context & (LValue | RefValue | DeepReference |
UnsetContext | InvokeArgument | OprLValue |
DeepOprLValue)) {
m_sym->setLvalParam();
}
}
}
}
/**
* ArrayElementExpression comes from:
*
* reference_variable[|expr]
* ->object_dim_list[|expr]
* encaps T_VARIABLE[expr]
* encaps ${T_STRING[expr]}
*/
TypePtr ArrayElementExpression::inferTypes(AnalysisResultPtr ar,
TypePtr type, bool coerce) {
ConstructPtr self = shared_from_this();
if (m_offset &&
!(m_context & (UnsetContext | ExistContext |
InvokeArgument | LValue | RefValue))) {
setEffect(DiagnosticEffect);
}
if (m_context & (AssignmentLHS|OprLValue)) {
clearEffect(AccessorEffect);
} else if (m_context & (LValue | RefValue)) {
setEffect(CreateEffect);
}
// handling $GLOBALS[...]
if (m_variable->is(Expression::KindOfSimpleVariable)) {
SimpleVariablePtr var =
dynamic_pointer_cast<SimpleVariable>(m_variable);
if (var->getName() == "GLOBALS") {
clearEffect(AccessorEffect);
m_global = true;
m_dynamicGlobal = true;
getScope()->getVariables()->
setAttribute(VariableTable::NeedGlobalPointer);
VariableTablePtr vars = ar->getVariables();
if (m_offset && m_offset->is(Expression::KindOfScalarExpression)) {
ScalarExpressionPtr offset =
dynamic_pointer_cast<ScalarExpression>(m_offset);
if (offset->isLiteralString()) {
m_globalName = offset->getIdentifier();
if (!m_globalName.empty()) {
m_dynamicGlobal = false;
clearEffect(DiagnosticEffect);
getScope()->getVariables()->
setAttribute(VariableTable::NeedGlobalPointer);
TypePtr ret;
if (coerce) {
ret = vars->add(m_globalName, type, true, ar, self,
ModifierExpressionPtr());
} else {
int p;
ret =
vars->checkVariable(m_globalName, type, coerce, ar, self, p);
}
getScope()->getVariables()->addSuperGlobal(m_globalName);
return ret;
}
}
} else {
vars->setAttribute(VariableTable::ContainsDynamicVariable);
}
if (hasContext(LValue) || hasContext(RefValue)) {
ar->getVariables()->forceVariants(ar, VariableTable::AnyVars);
ar->getVariables()->
setAttribute(VariableTable::ContainsLDynamicVariable);
}
if (m_offset) {
m_offset->inferAndCheck(ar, Type::Primitive, false);
}
return m_implementedType = Type::Variant; // so not to lose values
}
}
if ((hasContext(LValue) || hasContext(RefValue)) &&
!hasContext(UnsetContext)) {
m_variable->setContext(LValue);
}
TypePtr varType;
if (m_offset) {
varType = m_variable->inferAndCheck(ar, coerce ? Type::AutoSequence :
Type::Sequence, coerce);
m_offset->inferAndCheck(ar, Type::Some, false);
} else {
if (hasContext(ExistContext) || hasContext(UnsetContext)) {
if (getScope()->isFirstPass()) {
Compiler::Error(Compiler::InvalidArrayElement, self);
}
}
m_variable->inferAndCheck(ar, Type::Array, true);
}
if (varType && Type::SameType(varType, Type::String)) {
clearEffect(AccessorEffect);
m_implementedType.reset();
return Type::String;
}
if (varType && Type::SameType(varType, Type::Array)) {
clearEffect(AccessorEffect);
}
TypePtr ret = propagateTypes(ar, Type::Variant);
m_implementedType = Type::Variant;
return ret; // so not to lose values
}
