/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #pragma once #include #include "opcodes.hxx" #include "token.hxx" #include class SbiExprNode; class SbiExpression; class SbiExprList; class SbiParser; class SbiCodeGen; class SbiSymDef; class SbiProcDef; typedef std::unique_ptr SbiExprListPtr; typedef std::vector SbiExprListVector; struct SbVar { SbiExprNode* pNext; // next element (for structures) SbiSymDef* pDef; // symbol definition SbiExprList* pPar; // optional parameters (is deleted) SbiExprListVector* pvMorePar; // Array of arrays foo(pPar)(avMorePar[0])(avMorePar[1])... }; struct KeywordSymbolInfo { OUString m_aKeywordSymbol; SbxDataType m_eSbxDataType; }; enum SbiExprType { // expression types: SbSTDEXPR, // normal expression SbLVALUE, // any lValue SbSYMBOL, // any composite symbol SbOPERAND // variable/function }; enum SbiExprMode { // Expression context: EXPRMODE_STANDARD, // default EXPRMODE_STANDALONE, // a param1, param2 OR a( param1, param2 ) = 42 EXPRMODE_LPAREN_PENDING, // start of parameter list with bracket, special handling EXPRMODE_LPAREN_NOT_NEEDED, // pending LPAREN has not been used EXPRMODE_ARRAY_OR_OBJECT, // '=' or '(' or '.' found after ')' on ParenLevel 0, stopping // expression, assuming array syntax a(...)[(...)] = ? // or a(...).b(...) EXPRMODE_EMPTY_PAREN // It turned out that the paren don't contain anything: a() }; enum SbiNodeType { SbxNUMVAL, // nVal = value SbxSTRVAL, // aStrVal = value, before #i59791/#i45570: nStringId = value SbxVARVAL, // aVar = value SbxTYPEOF, // TypeOf ObjExpr Is Type SbxNODE, // Node SbxNEW, // new expression SbxDUMMY }; enum RecursiveMode { UNDEFINED, FORCE_CALL, PREVENT_CALL }; class SbiExprNode final { // operators (and operands) friend class SbiExpression; friend class SbiConstExpression; union { sal_uInt16 nTypeStrId; // pooled String-ID, #i59791/#i45570 Now only for TypeOf double nVal; // numeric value SbVar aVar; // or variable }; OUString aStrVal; // #i59791/#i45570 Store string directly std::unique_ptr pLeft; // left branch std::unique_ptr pRight; // right branch (NULL for unary ops) SbiExprNode* pWithParent; // node, whose member is "this per with" SbiNodeType eNodeType; SbxDataType eType; SbiToken eTok; bool bError; // true: error void FoldConstants(SbiParser*); void FoldConstantsBinaryNode(SbiParser*); void FoldConstantsUnaryNode(SbiParser*); void CollectBits(); // converting numbers to strings bool IsOperand() const { return eNodeType != SbxNODE && eNodeType != SbxTYPEOF && eNodeType != SbxNEW; } bool IsNumber() const; bool IsLvalue() const; // true, if usable as Lvalue void GenElement( SbiCodeGen&, SbiOpcode ); public: SbiExprNode(); SbiExprNode( double, SbxDataType ); SbiExprNode( const OUString& ); SbiExprNode( const SbiSymDef&, SbxDataType, SbiExprListPtr = nullptr ); SbiExprNode( std::unique_ptr, SbiToken, std::unique_ptr ); SbiExprNode( std::unique_ptr, sal_uInt16 ); // #120061 TypeOf SbiExprNode( sal_uInt16 ); // new ~SbiExprNode(); bool IsValid() const { return !bError; } bool IsConstant() const // true: constant operand { return eNodeType == SbxSTRVAL || eNodeType == SbxNUMVAL; } void ConvertToIntConstIfPossible(); bool IsVariable() const; void SetWithParent( SbiExprNode* p ) { pWithParent = p; } SbxDataType GetType() const { return eType; } void SetType( SbxDataType eTp ) { eType = eTp; } SbiNodeType GetNodeType() const { return eNodeType; } SbiSymDef* GetVar(); SbiSymDef* GetRealVar(); // last variable in x.y.z SbiExprNode* GetRealNode(); // last node in x.y.z const OUString& GetString() const { return aStrVal; } short GetNumber() const { return static_cast(nVal); } SbiExprList* GetParameters() { return aVar.pPar; } void Optimize(SbiParser*); // tree matching void Gen( SbiCodeGen& rGen, RecursiveMode eRecMode = UNDEFINED ); // giving out a node }; class SbiExpression { friend class SbiExprList; protected: OUString aArgName; SbiParser* pParser; std::unique_ptr pExpr; // expression tree SbiExprType eCurExpr; // type of expression SbiExprMode m_eMode; // expression context bool bBased = false; // true: easy DIM-part (+BASE) bool bError = false; bool bByVal = false; // true: ByVal-Parameter bool bBracket = false; // true: Parameter list with brackets sal_uInt16 nParenLevel = 0; std::unique_ptr Term( const KeywordSymbolInfo* pKeywordSymbolInfo = nullptr ); std::unique_ptr ObjTerm( SbiSymDef& ); std::unique_ptr Operand( bool bUsedForTypeOf = false ); std::unique_ptr Unary(); std::unique_ptr Exp(); std::unique_ptr MulDiv(); std::unique_ptr IntDiv(); std::unique_ptr Mod(); std::unique_ptr AddSub(); std::unique_ptr Cat(); std::unique_ptr Like(); std::unique_ptr VBA_Not(); std::unique_ptr Comp(); std::unique_ptr Boolean(); public: SbiExpression( SbiParser*, SbiExprType = SbSTDEXPR, SbiExprMode eMode = EXPRMODE_STANDARD, const KeywordSymbolInfo* pKeywordSymbolInfo = nullptr ); // parsing Ctor SbiExpression( SbiParser*, double, SbxDataType ); SbiExpression( SbiParser*, const SbiSymDef&, SbiExprListPtr = nullptr ); ~SbiExpression(); OUString& GetName() { return aArgName; } void SetBased() { bBased = true; } bool IsBased() const { return bBased; } void SetByVal() { bByVal = true; } bool IsBracket() const { return bBracket; } bool IsValid() const { return pExpr->IsValid(); } bool IsVariable() const { return pExpr->IsVariable(); } bool IsLvalue() const { return pExpr->IsLvalue(); } void ConvertToIntConstIfPossible() { pExpr->ConvertToIntConstIfPossible(); } const OUString& GetString() const { return pExpr->GetString(); } SbiSymDef* GetRealVar() { return pExpr->GetRealVar(); } SbiExprNode* GetExprNode() { return pExpr.get(); } SbxDataType GetType() const { return pExpr->GetType(); } void Gen( RecursiveMode eRecMode = UNDEFINED ); }; class SbiConstExpression : public SbiExpression { double nVal; OUString aVal; SbxDataType eType; public: // numeric constant SbiConstExpression( SbiParser* ); SbxDataType GetType() const { return eType; } const OUString& GetString() const { return aVal; } double GetValue() const { return nVal; } short GetShortValue(); }; class SbiExprList final { // class for parameters and dims std::vector> aData; short nDim; bool bError; bool bBracket; public: SbiExprList(); ~SbiExprList(); static SbiExprListPtr ParseParameters(SbiParser*, bool bStandaloneExpression = false, bool bPar = true); static SbiExprListPtr ParseDimList( SbiParser* ); bool IsBracket() const { return bBracket; } bool IsValid() const { return !bError; } short GetSize() const { return aData.size(); } short GetDims() const { return nDim; } SbiExpression* Get( size_t ); void Gen( SbiCodeGen& rGen); // code generation void addExpression( std::unique_ptr&& pExpr ); }; /* vim:set shiftwidth=4 softtabstop=4 expandtab: */