/* Icinga 2 | (c) 2012 Icinga GmbH | GPLv2+ */ #ifndef EXPRESSION_H #define EXPRESSION_H #include "config/i2-config.hpp" #include "base/debuginfo.hpp" #include "base/array.hpp" #include "base/dictionary.hpp" #include "base/function.hpp" #include "base/exception.hpp" #include "base/scriptframe.hpp" #include "base/shared-object.hpp" #include "base/convert.hpp" #include namespace icinga { struct DebugHint { public: DebugHint(Dictionary::Ptr hints = nullptr) : m_Hints(std::move(hints)) { } DebugHint(Dictionary::Ptr&& hints) : m_Hints(std::move(hints)) { } void AddMessage(const String& message, const DebugInfo& di) { GetMessages()->Add(new Array({ message, di.Path, di.FirstLine, di.FirstColumn, di.LastLine, di.LastColumn })); } DebugHint GetChild(const String& name) { const Dictionary::Ptr& children = GetChildren(); Value vchild; Dictionary::Ptr child; if (!children->Get(name, &vchild)) { child = new Dictionary(); children->Set(name, child); } else child = vchild; return DebugHint(child); } Dictionary::Ptr ToDictionary() const { return m_Hints; } private: Dictionary::Ptr m_Hints; Array::Ptr m_Messages; Dictionary::Ptr m_Children; const Array::Ptr& GetMessages() { if (m_Messages) return m_Messages; if (!m_Hints) m_Hints = new Dictionary(); Value vmessages; if (!m_Hints->Get("messages", &vmessages)) { m_Messages = new Array(); m_Hints->Set("messages", m_Messages); } else m_Messages = vmessages; return m_Messages; } const Dictionary::Ptr& GetChildren() { if (m_Children) return m_Children; if (!m_Hints) m_Hints = new Dictionary(); Value vchildren; if (!m_Hints->Get("properties", &vchildren)) { m_Children = new Dictionary(); m_Hints->Set("properties", m_Children); } else m_Children = vchildren; return m_Children; } }; enum CombinedSetOp { OpSetLiteral, OpSetAdd, OpSetSubtract, OpSetMultiply, OpSetDivide, OpSetModulo, OpSetXor, OpSetBinaryAnd, OpSetBinaryOr }; enum ScopeSpecifier { ScopeLocal, ScopeThis, ScopeGlobal }; typedef std::map DefinitionMap; /** * @ingroup config */ enum ExpressionResultCode { ResultOK, ResultReturn, ResultContinue, ResultBreak }; /** * @ingroup config */ struct ExpressionResult { public: template ExpressionResult(T value, ExpressionResultCode code = ResultOK) : m_Value(std::move(value)), m_Code(code) { } operator const Value&() const { return m_Value; } const Value& GetValue() const { return m_Value; } ExpressionResultCode GetCode() const { return m_Code; } private: Value m_Value; ExpressionResultCode m_Code; }; #define CHECK_RESULT(res) \ do { \ if (res.GetCode() != ResultOK) \ return res; \ } while (0); #define CHECK_RESULT_LOOP(res) \ if (res.GetCode() == ResultReturn) \ return res; \ if (res.GetCode() == ResultContinue) \ continue; \ if (res.GetCode() == ResultBreak) \ break; \ /** * @ingroup config */ class Expression : public SharedObject { public: DECLARE_PTR_TYPEDEFS(Expression); Expression() = default; Expression(const Expression&) = delete; virtual ~Expression(); Expression& operator=(const Expression&) = delete; ExpressionResult Evaluate(ScriptFrame& frame, DebugHint *dhint = nullptr) const; virtual bool GetReference(ScriptFrame& frame, bool init_dict, Value *parent, String *index, DebugHint **dhint = nullptr) const; virtual const DebugInfo& GetDebugInfo() const; virtual ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const = 0; static boost::signals2::signal OnBreakpoint; static void ScriptBreakpoint(ScriptFrame& frame, ScriptError *ex, const DebugInfo& di); }; std::unique_ptr MakeIndexer(ScopeSpecifier scopeSpec, const String& index); class OwnedExpression final : public Expression { public: OwnedExpression(Expression::Ptr expression) : m_Expression(std::move(expression)) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override { return m_Expression->DoEvaluate(frame, dhint); } const DebugInfo& GetDebugInfo() const override { return m_Expression->GetDebugInfo(); } private: Expression::Ptr m_Expression; }; class LiteralExpression final : public Expression { public: LiteralExpression(Value value = Value()); const Value& GetValue() const { return m_Value; } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; private: Value m_Value; }; inline LiteralExpression *MakeLiteralRaw(const Value& literal = Value()) { return new LiteralExpression(literal); } inline std::unique_ptr MakeLiteral(const Value& literal = Value()) { return std::unique_ptr(MakeLiteralRaw(literal)); } class DebuggableExpression : public Expression { public: DebuggableExpression(DebugInfo debugInfo = DebugInfo()) : m_DebugInfo(std::move(debugInfo)) { } protected: const DebugInfo& GetDebugInfo() const final; DebugInfo m_DebugInfo; }; class UnaryExpression : public DebuggableExpression { public: UnaryExpression(std::unique_ptr operand, const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo), m_Operand(std::move(operand)) { } protected: std::unique_ptr m_Operand; }; class BinaryExpression : public DebuggableExpression { public: BinaryExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo), m_Operand1(std::move(operand1)), m_Operand2(std::move(operand2)) { } inline const std::unique_ptr& GetOperand1() const noexcept { return m_Operand1; } inline const std::unique_ptr& GetOperand2() const noexcept { return m_Operand2; } protected: std::unique_ptr m_Operand1; std::unique_ptr m_Operand2; }; class VariableExpression final : public DebuggableExpression { public: VariableExpression(String variable, std::vector imports, const DebugInfo& debugInfo = DebugInfo()); inline const String& GetVariable() const { return m_Variable; } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; bool GetReference(ScriptFrame& frame, bool init_dict, Value *parent, String *index, DebugHint **dhint) const override; private: String m_Variable; std::vector m_Imports; friend void BindToScope(std::unique_ptr& expr, ScopeSpecifier scopeSpec); }; class DerefExpression final : public UnaryExpression { public: DerefExpression(std::unique_ptr operand, const DebugInfo& debugInfo = DebugInfo()) : UnaryExpression(std::move(operand), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; bool GetReference(ScriptFrame& frame, bool init_dict, Value *parent, String *index, DebugHint **dhint) const override; }; class RefExpression final : public UnaryExpression { public: RefExpression(std::unique_ptr operand, const DebugInfo& debugInfo = DebugInfo()) : UnaryExpression(std::move(operand), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class NegateExpression final : public UnaryExpression { public: NegateExpression(std::unique_ptr operand, const DebugInfo& debugInfo = DebugInfo()) : UnaryExpression(std::move(operand), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class LogicalNegateExpression final : public UnaryExpression { public: LogicalNegateExpression(std::unique_ptr operand, const DebugInfo& debugInfo = DebugInfo()) : UnaryExpression(std::move(operand), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class AddExpression final : public BinaryExpression { public: AddExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class SubtractExpression final : public BinaryExpression { public: SubtractExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class MultiplyExpression final : public BinaryExpression { public: MultiplyExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class DivideExpression final : public BinaryExpression { public: DivideExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class ModuloExpression final : public BinaryExpression { public: ModuloExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class XorExpression final : public BinaryExpression { public: XorExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class BinaryAndExpression final : public BinaryExpression { public: BinaryAndExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class BinaryOrExpression final : public BinaryExpression { public: BinaryOrExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class ShiftLeftExpression final : public BinaryExpression { public: ShiftLeftExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class ShiftRightExpression final : public BinaryExpression { public: ShiftRightExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class EqualExpression final : public BinaryExpression { public: EqualExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class NotEqualExpression final : public BinaryExpression { public: NotEqualExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class LessThanExpression final : public BinaryExpression { public: LessThanExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class GreaterThanExpression final : public BinaryExpression { public: GreaterThanExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class LessThanOrEqualExpression final : public BinaryExpression { public: LessThanOrEqualExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class GreaterThanOrEqualExpression final : public BinaryExpression { public: GreaterThanOrEqualExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class InExpression final : public BinaryExpression { public: InExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class NotInExpression final : public BinaryExpression { public: NotInExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class LogicalAndExpression final : public BinaryExpression { public: LogicalAndExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class LogicalOrExpression final : public BinaryExpression { public: LogicalOrExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class FunctionCallExpression final : public DebuggableExpression { public: FunctionCallExpression(std::unique_ptr fname, std::vector >&& args, const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo), m_FName(std::move(fname)), m_Args(std::move(args)) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; public: std::unique_ptr m_FName; std::vector > m_Args; }; class ArrayExpression final : public DebuggableExpression { public: ArrayExpression(std::vector >&& expressions, const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo), m_Expressions(std::move(expressions)) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; private: std::vector > m_Expressions; }; class DictExpression final : public DebuggableExpression { public: DictExpression(std::vector >&& expressions = {}, const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo), m_Expressions(std::move(expressions)) { } void MakeInline(); inline const std::vector>& GetExpressions() const noexcept { return m_Expressions; } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; private: std::vector > m_Expressions; bool m_Inline{false}; friend void BindToScope(std::unique_ptr& expr, ScopeSpecifier scopeSpec); }; class SetConstExpression final : public UnaryExpression { public: SetConstExpression(const String& name, std::unique_ptr operand, const DebugInfo& debugInfo = DebugInfo()) : UnaryExpression(std::move(operand), debugInfo), m_Name(name) { } protected: String m_Name; ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class SetExpression final : public BinaryExpression { public: SetExpression(std::unique_ptr operand1, CombinedSetOp op, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo), m_Op(op) { } void SetOverrideFrozen(); protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; private: CombinedSetOp m_Op; bool m_OverrideFrozen{false}; friend void BindToScope(std::unique_ptr& expr, ScopeSpecifier scopeSpec); }; class ConditionalExpression final : public DebuggableExpression { public: ConditionalExpression(std::unique_ptr condition, std::unique_ptr true_branch, std::unique_ptr false_branch, const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo), m_Condition(std::move(condition)), m_TrueBranch(std::move(true_branch)), m_FalseBranch(std::move(false_branch)) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; private: std::unique_ptr m_Condition; std::unique_ptr m_TrueBranch; std::unique_ptr m_FalseBranch; }; class WhileExpression final : public DebuggableExpression { public: WhileExpression(std::unique_ptr condition, std::unique_ptr loop_body, const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo), m_Condition(std::move(condition)), m_LoopBody(std::move(loop_body)) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; private: std::unique_ptr m_Condition; std::unique_ptr m_LoopBody; }; class ReturnExpression final : public UnaryExpression { public: ReturnExpression(std::unique_ptr expression, const DebugInfo& debugInfo = DebugInfo()) : UnaryExpression(std::move(expression), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class BreakExpression final : public DebuggableExpression { public: BreakExpression(const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class ContinueExpression final : public DebuggableExpression { public: ContinueExpression(const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class GetScopeExpression final : public Expression { public: GetScopeExpression(ScopeSpecifier scopeSpec) : m_ScopeSpec(scopeSpec) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; private: ScopeSpecifier m_ScopeSpec; }; class IndexerExpression final : public BinaryExpression { public: IndexerExpression(std::unique_ptr operand1, std::unique_ptr operand2, const DebugInfo& debugInfo = DebugInfo()) : BinaryExpression(std::move(operand1), std::move(operand2), debugInfo) { } void SetOverrideFrozen(); protected: bool m_OverrideFrozen{false}; ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; bool GetReference(ScriptFrame& frame, bool init_dict, Value *parent, String *index, DebugHint **dhint) const override; friend void BindToScope(std::unique_ptr& expr, ScopeSpecifier scopeSpec); }; void BindToScope(std::unique_ptr& expr, ScopeSpecifier scopeSpec); class ThrowExpression final : public DebuggableExpression { public: ThrowExpression(std::unique_ptr message, bool incompleteExpr, const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo), m_Message(std::move(message)), m_IncompleteExpr(incompleteExpr) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; private: std::unique_ptr m_Message; bool m_IncompleteExpr; }; class ImportExpression final : public DebuggableExpression { public: ImportExpression(std::unique_ptr name, const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo), m_Name(std::move(name)) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; private: std::unique_ptr m_Name; }; class ImportDefaultTemplatesExpression final : public DebuggableExpression { public: ImportDefaultTemplatesExpression(const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class FunctionExpression final : public DebuggableExpression { public: FunctionExpression(String name, std::vector args, std::map >&& closedVars, std::unique_ptr expression, const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo), m_Name(std::move(name)), m_Args(std::move(args)), m_ClosedVars(std::move(closedVars)), m_Expression(expression.release()) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; private: String m_Name; std::vector m_Args; std::map > m_ClosedVars; Expression::Ptr m_Expression; }; class ApplyExpression final : public DebuggableExpression { public: ApplyExpression(String type, String target, std::unique_ptr name, std::unique_ptr filter, String package, String fkvar, String fvvar, std::unique_ptr fterm, std::map >&& closedVars, bool ignoreOnError, std::unique_ptr expression, const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo), m_Type(std::move(type)), m_Target(std::move(target)), m_Name(std::move(name)), m_Filter(filter.release()), m_Package(std::move(package)), m_FKVar(std::move(fkvar)), m_FVVar(std::move(fvvar)), m_FTerm(fterm.release()), m_IgnoreOnError(ignoreOnError), m_ClosedVars(std::move(closedVars)), m_Expression(expression.release()) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; private: String m_Type; String m_Target; std::unique_ptr m_Name; Expression::Ptr m_Filter; String m_Package; String m_FKVar; String m_FVVar; Expression::Ptr m_FTerm; bool m_IgnoreOnError; std::map > m_ClosedVars; Expression::Ptr m_Expression; }; class NamespaceExpression final : public DebuggableExpression { public: NamespaceExpression(std::unique_ptr expression, const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo), m_Expression(expression.release()) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; private: Expression::Ptr m_Expression; }; class ObjectExpression final : public DebuggableExpression { public: ObjectExpression(bool abstract, std::unique_ptr type, std::unique_ptr name, std::unique_ptr filter, String zone, String package, std::map >&& closedVars, bool defaultTmpl, bool ignoreOnError, std::unique_ptr expression, const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo), m_Abstract(abstract), m_Type(std::move(type)), m_Name(std::move(name)), m_Filter(filter.release()), m_Zone(std::move(zone)), m_Package(std::move(package)), m_DefaultTmpl(defaultTmpl), m_IgnoreOnError(ignoreOnError), m_ClosedVars(std::move(closedVars)), m_Expression(expression.release()) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; private: bool m_Abstract; std::unique_ptr m_Type; std::unique_ptr m_Name; Expression::Ptr m_Filter; String m_Zone; String m_Package; bool m_DefaultTmpl; bool m_IgnoreOnError; std::map > m_ClosedVars; Expression::Ptr m_Expression; }; class ForExpression final : public DebuggableExpression { public: ForExpression(String fkvar, String fvvar, std::unique_ptr value, std::unique_ptr expression, const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo), m_FKVar(std::move(fkvar)), m_FVVar(std::move(fvvar)), m_Value(std::move(value)), m_Expression(std::move(expression)) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; private: String m_FKVar; String m_FVVar; std::unique_ptr m_Value; std::unique_ptr m_Expression; }; class LibraryExpression final : public UnaryExpression { public: LibraryExpression(std::unique_ptr expression, const DebugInfo& debugInfo = DebugInfo()) : UnaryExpression(std::move(expression), debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; enum IncludeType { IncludeRegular, IncludeRecursive, IncludeZones }; class IncludeExpression final : public DebuggableExpression { public: IncludeExpression(String relativeBase, std::unique_ptr path, std::unique_ptr pattern, std::unique_ptr name, IncludeType type, bool searchIncludes, String zone, String package, const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo), m_RelativeBase(std::move(relativeBase)), m_Path(std::move(path)), m_Pattern(std::move(pattern)), m_Name(std::move(name)), m_Type(type), m_SearchIncludes(searchIncludes), m_Zone(std::move(zone)), m_Package(std::move(package)) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; private: String m_RelativeBase; std::unique_ptr m_Path; std::unique_ptr m_Pattern; std::unique_ptr m_Name; IncludeType m_Type; bool m_SearchIncludes; String m_Zone; String m_Package; }; class BreakpointExpression final : public DebuggableExpression { public: BreakpointExpression(const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; }; class TryExceptExpression final : public DebuggableExpression { public: TryExceptExpression(std::unique_ptr tryBody, std::unique_ptr exceptBody, const DebugInfo& debugInfo = DebugInfo()) : DebuggableExpression(debugInfo), m_TryBody(std::move(tryBody)), m_ExceptBody(std::move(exceptBody)) { } protected: ExpressionResult DoEvaluate(ScriptFrame& frame, DebugHint *dhint) const override; private: std::unique_ptr m_TryBody; std::unique_ptr m_ExceptBody; }; } #endif /* EXPRESSION_H */