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Diffstat (limited to 'sc/source/filter/inc/xlformula.hxx')
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diff --git a/sc/source/filter/inc/xlformula.hxx b/sc/source/filter/inc/xlformula.hxx new file mode 100644 index 000000000..43f220bd6 --- /dev/null +++ b/sc/source/filter/inc/xlformula.hxx @@ -0,0 +1,551 @@ +/* -*- 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 <osl/diagnose.h> +#include <formula/opcode.hxx> +#include <address.hxx> +#include "ftools.hxx" +#include <map> +#include <memory> + +namespace svl { + +class SharedStringPool; + +} + +// Constants ================================================================== + +const size_t EXC_TOKARR_MAXLEN = 4096; /// Maximum size of a token array. + +// Token class flags ---------------------------------------------------------- + +const sal_uInt8 EXC_TOKCLASS_MASK = 0x60; +const sal_uInt8 EXC_TOKCLASS_NONE = 0x00; /// 00-1F: Base tokens. +const sal_uInt8 EXC_TOKCLASS_REF = 0x20; /// 20-3F: Reference class tokens. +const sal_uInt8 EXC_TOKCLASS_VAL = 0x40; /// 40-5F: Value class tokens. +const sal_uInt8 EXC_TOKCLASS_ARR = 0x60; /// 60-7F: Array class tokens. + +// Base tokens ---------------------------------------------------------------- + +const sal_uInt8 EXC_TOKID_MASK = 0x1F; + +const sal_uInt8 EXC_TOKID_NONE = 0x00; /// Placeholder for invalid token id. +const sal_uInt8 EXC_TOKID_EXP = 0x01; /// Array or shared formula reference. +const sal_uInt8 EXC_TOKID_TBL = 0x02; /// Multiple operation reference. +const sal_uInt8 EXC_TOKID_ADD = 0x03; /// Addition operator. +const sal_uInt8 EXC_TOKID_SUB = 0x04; /// Subtraction operator. +const sal_uInt8 EXC_TOKID_MUL = 0x05; /// Multiplication operator. +const sal_uInt8 EXC_TOKID_DIV = 0x06; /// Division operator. +const sal_uInt8 EXC_TOKID_POWER = 0x07; /// Power operator. +const sal_uInt8 EXC_TOKID_CONCAT = 0x08; /// String concatenation operator. +const sal_uInt8 EXC_TOKID_LT = 0x09; /// Less than operator. +const sal_uInt8 EXC_TOKID_LE = 0x0A; /// Less than or equal operator. +const sal_uInt8 EXC_TOKID_EQ = 0x0B; /// Equal operator. +const sal_uInt8 EXC_TOKID_GE = 0x0C; /// Greater than or equal operator. +const sal_uInt8 EXC_TOKID_GT = 0x0D; /// Greater than operator. +const sal_uInt8 EXC_TOKID_NE = 0x0E; /// Not equal operator. +const sal_uInt8 EXC_TOKID_ISECT = 0x0F; /// Intersection operator. +const sal_uInt8 EXC_TOKID_LIST = 0x10; /// List operator. +const sal_uInt8 EXC_TOKID_RANGE = 0x11; /// Range operator. +const sal_uInt8 EXC_TOKID_UPLUS = 0x12; /// Unary plus. +const sal_uInt8 EXC_TOKID_UMINUS = 0x13; /// Unary minus. +const sal_uInt8 EXC_TOKID_PERCENT = 0x14; /// Percent sign. +const sal_uInt8 EXC_TOKID_PAREN = 0x15; /// Parentheses. +const sal_uInt8 EXC_TOKID_MISSARG = 0x16; /// Missing argument. +const sal_uInt8 EXC_TOKID_STR = 0x17; /// String constant. +const sal_uInt8 EXC_TOKID_NLR = 0x18; /// Natural language reference (NLR). +const sal_uInt8 EXC_TOKID_ATTR = 0x19; /// Special attribute. +const sal_uInt8 EXC_TOKID_SHEET = 0x1A; /// Start of a sheet reference (BIFF2-BIFF4). +const sal_uInt8 EXC_TOKID_ENDSHEET = 0x1B; /// End of a sheet reference (BIFF2-BIFF4). +const sal_uInt8 EXC_TOKID_ERR = 0x1C; /// Error constant. +const sal_uInt8 EXC_TOKID_BOOL = 0x1D; /// Boolean constant. +const sal_uInt8 EXC_TOKID_INT = 0x1E; /// Integer constant. +const sal_uInt8 EXC_TOKID_NUM = 0x1F; /// Floating-point constant. + +// Base IDs of classified tokens ---------------------------------------------- + +const sal_uInt8 EXC_TOKID_ARRAY = 0x00; /// Array constant. +const sal_uInt8 EXC_TOKID_FUNC = 0x01; /// Function, fixed number of arguments. +const sal_uInt8 EXC_TOKID_FUNCVAR = 0x02; /// Function, variable number of arguments. +const sal_uInt8 EXC_TOKID_NAME = 0x03; /// Defined name. +const sal_uInt8 EXC_TOKID_REF = 0x04; /// 2D cell reference. +const sal_uInt8 EXC_TOKID_AREA = 0x05; /// 2D area reference. +const sal_uInt8 EXC_TOKID_MEMAREA = 0x06; /// Constant reference subexpression. +const sal_uInt8 EXC_TOKID_MEMERR = 0x07; /// Deleted reference subexpression. +const sal_uInt8 EXC_TOKID_MEMNOMEM = 0x08; /// Constant reference subexpression without result. +const sal_uInt8 EXC_TOKID_MEMFUNC = 0x09; /// Variable reference subexpression. +const sal_uInt8 EXC_TOKID_REFERR = 0x0A; /// Deleted 2D cell reference. +const sal_uInt8 EXC_TOKID_AREAERR = 0x0B; /// Deleted 2D area reference. +const sal_uInt8 EXC_TOKID_REFN = 0x0C; /// Relative 2D cell reference (in names). +const sal_uInt8 EXC_TOKID_AREAN = 0x0D; /// Relative 2D area reference (in names). +const sal_uInt8 EXC_TOKID_MEMAREAN = 0x0E; /// Reference subexpression (in names). +const sal_uInt8 EXC_TOKID_MEMNOMEMN = 0x0F; /// Reference subexpression (in names) without result. +const sal_uInt8 EXC_TOKID_FUNCCE = 0x18; +const sal_uInt8 EXC_TOKID_NAMEX = 0x19; /// External reference. +const sal_uInt8 EXC_TOKID_REF3D = 0x1A; /// 3D cell reference. +const sal_uInt8 EXC_TOKID_AREA3D = 0x1B; /// 3D area reference. +const sal_uInt8 EXC_TOKID_REFERR3D = 0x1C; /// Deleted 3D cell reference. +const sal_uInt8 EXC_TOKID_AREAERR3D = 0x1D; /// Deleted 3D area reference + +// specific token constants --------------------------------------------------- + +const sal_uInt16 EXC_TOK_STR_MAXLEN = 255; /// Maximum string length of a tStr token. + +const sal_uInt8 EXC_TOK_BOOL_FALSE = 0; /// sal_False value of a tBool token. +const sal_uInt8 EXC_TOK_BOOL_TRUE = 1; /// sal_True value of a tBool token. + +const sal_uInt8 EXC_TOK_ATTR_VOLATILE = 0x01; /// Volatile function. +const sal_uInt8 EXC_TOK_ATTR_IF = 0x02; /// Start of true condition in IF function. +const sal_uInt8 EXC_TOK_ATTR_CHOOSE = 0x04; /// Jump array of CHOOSE function. +const sal_uInt8 EXC_TOK_ATTR_GOTO = 0x08; /// Jump to token. +const sal_uInt8 EXC_TOK_ATTR_SUM = 0x10; /// SUM function with one parameter. +const sal_uInt8 EXC_TOK_ATTR_ASSIGN = 0x20; /// BASIC style assignment. +const sal_uInt8 EXC_TOK_ATTR_SPACE = 0x40; /// Spaces in formula representation. + +const sal_uInt8 EXC_TOK_ATTR_SPACE_SP = 0x00; /// Spaces before next token. +const sal_uInt8 EXC_TOK_ATTR_SPACE_BR = 0x01; /// Line breaks before next token. +const sal_uInt8 EXC_TOK_ATTR_SPACE_SP_OPEN = 0x02; /// Spaces before opening parenthesis. +const sal_uInt8 EXC_TOK_ATTR_SPACE_BR_OPEN = 0x03; /// Line breaks before opening parenthesis. +const sal_uInt8 EXC_TOK_ATTR_SPACE_SP_CLOSE = 0x04; /// Spaces before closing parenthesis. +const sal_uInt8 EXC_TOK_ATTR_SPACE_BR_CLOSE = 0x05; /// Line breaks before closing parenthesis. +const sal_uInt8 EXC_TOK_ATTR_SPACE_SP_PRE = 0x06; /// Spaces before formula (BIFF3). + +const sal_uInt16 EXC_TOK_FUNCVAR_CMD = 0x8000; /// Macro command. +const sal_uInt16 EXC_TOK_FUNCVAR_INDEXMASK = 0x7FFF; /// Mask for function/command index. +const sal_uInt8 EXC_TOK_FUNCVAR_PROMPT = 0x80; /// User prompt for macro commands. +const sal_uInt8 EXC_TOK_FUNCVAR_COUNTMASK = 0x7F; /// Mask for parameter count. + +const sal_uInt16 EXC_TOK_REF_COLREL = 0x4000; /// True = Column is relative. +const sal_uInt16 EXC_TOK_REF_ROWREL = 0x8000; /// True = Row is relative. + +const sal_uInt8 EXC_TOK_NLR_ERR = 0x01; /// NLR: Invalid/deleted. +const sal_uInt8 EXC_TOK_NLR_ROWR = 0x02; /// NLR: Row index. +const sal_uInt8 EXC_TOK_NLR_COLR = 0x03; /// NLR: Column index. +const sal_uInt8 EXC_TOK_NLR_ROWV = 0x06; /// NLR: Value in row. +const sal_uInt8 EXC_TOK_NLR_COLV = 0x07; /// NLR: Value in column. +const sal_uInt8 EXC_TOK_NLR_RANGE = 0x0A; /// NLR: Range. +const sal_uInt8 EXC_TOK_NLR_SRANGE = 0x0B; /// Stacked NLR: Range. +const sal_uInt8 EXC_TOK_NLR_SROWR = 0x0C; /// Stacked NLR: Row index. +const sal_uInt8 EXC_TOK_NLR_SCOLR = 0x0D; /// Stacked NLR: Column index. +const sal_uInt8 EXC_TOK_NLR_SROWV = 0x0E; /// Stacked NLR: Value in row. +const sal_uInt8 EXC_TOK_NLR_SCOLV = 0x0F; /// Stacked NLR: Value in column. +const sal_uInt8 EXC_TOK_NLR_RANGEERR = 0x10; /// NLR: Invalid/deleted range. +const sal_uInt8 EXC_TOK_NLR_SXNAME = 0x1D; /// NLR: Pivot table name. +const sal_uInt16 EXC_TOK_NLR_REL = 0x8000; /// True = Natural language ref is relative. + +const sal_uInt32 EXC_TOK_NLR_ADDREL = 0x80000000; /// NLR relative (in appended data). +const sal_uInt32 EXC_TOK_NLR_ADDMASK = 0x3FFFFFFF; /// Mask for number of appended ranges. + +/** Type of a formula. */ +enum XclFormulaType +{ + EXC_FMLATYPE_CELL, /// Simple cell formula, also used in change tracking. + EXC_FMLATYPE_MATRIX, /// Matrix (array) formula. + EXC_FMLATYPE_SHARED, /// Shared formula. + EXC_FMLATYPE_CONDFMT, /// Conditional format. + EXC_FMLATYPE_DATAVAL, /// Data validation. + EXC_FMLATYPE_NAME, /// Defined name. + EXC_FMLATYPE_CHART, /// Chart source ranges. + EXC_FMLATYPE_CONTROL, /// Spreadsheet links in form controls. + EXC_FMLATYPE_WQUERY, /// Web query source range. + EXC_FMLATYPE_LISTVAL /// List (cell range) validation. +}; + +// Function parameter info ==================================================== + +/** Enumerates validity modes for a function parameter. */ +enum XclFuncParamValidity +{ + EXC_PARAM_NONE = 0, /// Default for an unspecified entry in a C-array. + EXC_PARAM_REGULAR, /// Parameter supported by Calc and Excel. + EXC_PARAM_CALCONLY, /// Parameter supported by Calc only. + EXC_PARAM_EXCELONLY /// Parameter supported by Excel only. +}; + +/** Enumerates different types of token class conversion in function parameters. */ +enum XclFuncParamConv +{ + EXC_PARAMCONV_ORG, /// Use original class of current token. + EXC_PARAMCONV_VAL, /// Convert tokens to VAL class. + EXC_PARAMCONV_ARR, /// Convert tokens to ARR class. + EXC_PARAMCONV_RPT, /// Repeat parent conversion in VALTYPE parameters. + EXC_PARAMCONV_RPX, /// Repeat parent conversion in REFTYPE parameters. + EXC_PARAMCONV_RPO /// Repeat parent conversion in operands of operators. +}; + +/** Structure that contains all needed information for a parameter in a + function. + + The member meValid specifies which application supports the parameter. If + set to CALCONLY, import filters have to insert a default value for this + parameter, and export filters have to skip the parameter. If set to + EXCELONLY, import filters have to skip the parameter, and export filters + have to insert a default value for this parameter. + + The member mbValType specifies whether the parameter requires tokens to be + of value type (VAL or ARR class). + + If set to false, the parameter is called to be REFTYPE. Tokens with REF + default class can be inserted for the parameter (e.g. tAreaR tokens). + + If set to true, the parameter is called to be VALTYPE. Tokens with REF + class need to be converted to VAL tokens first (e.g. tAreaR will be + converted to tAreaV), and further conversion is done according to this + new token class. + + The member meConv specifies how to convert the current token class of the + token inserted for the parameter. If the token class is still REF this + means that the token has default REF class and the parameter is REFTYPE + (see member mbValType), the token will not be converted at all and remains + in REF class. Otherwise, token class conversion is depending on the actual + token class of the return value of the function containing this parameter. + The function may return REF class (tFuncR, tFuncVarR, tFuncCER), or it may + return VAL or ARR class (tFuncV, tFuncA, tFuncVarV, tFuncVarA, tFuncCEV, + tFuncCEA). Even if the function is able to return REF class, it may return + VAL or ARR class instead due to the VALTYPE data type of the parent + function parameter that calls the own function. Example: The INDIRECT + function returns REF class by default. But if called from a VALTYPE + function parameter, e.g. in the formula =ABS(INDIRECT("A1")), it returns + VAL or ARR class instead. Additionally, the repeating conversion types RPT + and RPX rely on the conversion executed for the function token class. + + 1) ORG: + Use the original class of the token (VAL or ARR), regardless of any + conversion done for the function return class. + + 2) VAL: + Convert ARR tokens to VAL class, regardless of any conversion done for + the function return class. + + 3) ARR: + Convert VAL tokens to ARR class, regardless of any conversion done for + the function return class. + + 4) RPT: + If the own function returns REF class (thus it is called from a REFTYPE + parameter, see above), and the parent conversion type (for the function + return class) was ORG, VAL, or ARR, ignore that conversion and always + use VAL conversion for the own token instead. If the parent conversion + type was RPT or RPX, repeat the conversion that would have been used if + the function would return value type. + If the own function returns value type (VAL or ARR class, see above), + and the parent conversion type (for the function return class) was ORG, + VAL, ARR, or RPT, repeat this conversion for the own token. If the + parent conversion type was RPX, always use ORG conversion type for the + own token instead. + + 5) RPX: + This type of conversion only occurs in functions returning VAL class by + default. If the own token is value type, and the VAL return class of + the own function has been changed to ARR class (due to direct ARR + conversion, or due to ARR conversion repeated by RPT or RPX), set the + own token to ARR type. Otherwise use the original token type (VAL + conversion from parent parameter will not be repeated at all). If + nested functions have RPT or value-type RPX parameters, they will not + repeat this conversion type, but will use ORG conversion instead (see + description of RPT above). + + 6) RPO: + This type of conversion is only used for the operands of all operators + (unary and binary arithmetic operators, comparison operators, and range + operators). It is not used for function parameters. On conversion, it + will be replaced by the last conversion type that was not the RPO + conversion. This leads to a slightly different behaviour than the RPT + conversion for operands in conjunction with a parent RPX conversion. + */ +struct XclFuncParamInfo +{ + XclFuncParamValidity meValid; /// Parameter validity. + XclFuncParamConv meConv; /// Token class conversion type. + bool mbValType; /// Data type (false = REFTYPE, true = VALTYPE). +}; + +// Function data ============================================================== + +const sal_uInt8 EXC_FUNC_MAXPARAM = 30; /// Maximum parameter count. + +const size_t EXC_FUNCINFO_PARAMINFO_COUNT = 5; /// Number of parameter info entries. + +const sal_uInt8 EXC_FUNCFLAG_VOLATILE = 0x01; /// Result is volatile (e.g. NOW() function). +const sal_uInt8 EXC_FUNCFLAG_IMPORTONLY = 0x02; /// Only used in import filter. +const sal_uInt8 EXC_FUNCFLAG_EXPORTONLY = 0x04; /// Only used in export filter. +const sal_uInt8 EXC_FUNCFLAG_PARAMPAIRS = 0x08; /// Optional parameters are expected to appear in pairs. +const sal_uInt8 EXC_FUNCFLAG_ADDINEQUIV = 0x10; /// Function is an add-in equivalent + +// selected function IDs +const sal_uInt16 EXC_FUNCID_IF = 1; +const sal_uInt16 EXC_FUNCID_SUM = 4; +const sal_uInt16 EXC_FUNCID_AND = 36; +const sal_uInt16 EXC_FUNCID_OR = 37; +const sal_uInt16 EXC_FUNCID_CHOOSE = 100; +const sal_uInt16 EXC_FUNCID_EXTERNCALL = 255; + +/** Represents information for a spreadsheet function for import and export. + + The member mpParamInfos points to an array of type information structures + for all parameters of the function. The last initialized structure + describing a regular parameter (member meValid == EXC_PARAMVALID_ALWAYS) in + this array is used repeatedly for all following parameters supported by a + function. + */ +struct XclFunctionInfo +{ + OpCode meOpCode; /// Calc function opcode. + sal_uInt16 mnXclFunc; /// Excel function index. + sal_uInt8 mnMinParamCount; /// Minimum number of parameters. + sal_uInt8 mnMaxParamCount; /// Maximum number of parameters. + sal_uInt8 mnRetClass; /// Token class of the return value. + XclFuncParamInfo mpParamInfos[ EXC_FUNCINFO_PARAMINFO_COUNT ]; /// Information for all parameters. + sal_uInt8 mnFlags; /// Additional flags (EXC_FUNCFLAG_* constants). + const char* mpcMacroName; /** Function name, if simulated by + a macro call (UTF-8) EXC_FUNCFLAG_ADDINEQUIV is 0; + or programmatical add-in name + if stored as such and + EXC_FUNCFLAG_ADDINEQUIV is set. */ + + /** Returns true, if the function is volatile. */ + bool IsVolatile() const { return ::get_flag( mnFlags, EXC_FUNCFLAG_VOLATILE ); } + /** Returns true, if optional parameters are expected to appear in pairs. */ + bool IsParamPairs() const { return ::get_flag( mnFlags, EXC_FUNCFLAG_PARAMPAIRS ); } + /** Returns true, if the function parameter count is fixed. */ + bool IsFixedParamCount() const { return (mnXclFunc != EXC_FUNCID_EXTERNCALL) && (mnMinParamCount == mnMaxParamCount); } + /** Returns true, if the function is simulated by a macro call. */ + bool IsMacroFunc() const { return mpcMacroName != nullptr && !(mnFlags & EXC_FUNCFLAG_ADDINEQUIV); } + /** Returns true, if the function is stored as an add-in call. */ + bool IsAddInEquivalent() const { return mpcMacroName != nullptr && (mnFlags & EXC_FUNCFLAG_ADDINEQUIV); } + /** Returns the name of the external function as string. */ + OUString GetMacroFuncName() const; + /** Returns the programmatical name of the Add-In function as string. */ + OUString GetAddInEquivalentFuncName() const; +}; + +class XclRoot; + +/** Provides access to function info structs for all available functions. */ +class XclFunctionProvider +{ +public: + explicit XclFunctionProvider( const XclRoot& rRoot ); + + /** Returns the function data for an Excel function index, or 0 on error. */ + const XclFunctionInfo* GetFuncInfoFromXclFunc( sal_uInt16 nXclFunc ) const; + /** Returns the function data for an Excel function simulated by a macro call, or 0 on error. */ + const XclFunctionInfo* GetFuncInfoFromXclMacroName( const OUString& rXclMacroName ) const; + /** Returns the function data for a Calc opcode, or 0 on error. */ + const XclFunctionInfo* GetFuncInfoFromOpCode( OpCode eOpCode ) const; + +private: + void FillXclFuncMap( const XclFunctionInfo* pBeg, const XclFunctionInfo* pEnd ); + void FillScFuncMap( const XclFunctionInfo* pBeg, const XclFunctionInfo* pEnd ); + +private: + typedef ::std::map< sal_uInt16, const XclFunctionInfo* > XclFuncMap; + typedef ::std::map< OUString, const XclFunctionInfo* > XclMacroNameMap; + typedef ::std::map< OpCode, const XclFunctionInfo* > ScFuncMap; + + XclFuncMap maXclFuncMap; /// Maps Excel function indexes to function data. + XclMacroNameMap maXclMacroNameMap; /// Maps macro function names to function data. + ScFuncMap maScFuncMap; /// Maps Calc opcodes to function data. +}; + +// Token array ================================================================ + +class XclImpStream; +class XclExpStream; + +/** Binary representation of an Excel token array. */ +class XclTokenArray +{ +public: + /** Creates an empty token array. */ + explicit XclTokenArray( bool bVolatile = false ); + /** Creates a token array, swaps passed token vectors into own data. */ + explicit XclTokenArray( ScfUInt8Vec& rTokVec, ScfUInt8Vec& rExtDataVec, bool bVolatile = false ); + + /** Returns true, if the token array is empty. */ + bool Empty() const { return maTokVec.empty(); } + /** Returns the size of the token array in bytes. */ + sal_uInt16 GetSize() const; + /** Returns read-only access to the byte vector storing token data. */ + const sal_uInt8* GetData() const { return maTokVec.empty() ? nullptr : maTokVec.data(); } + /** Returns true, if the formula contains a volatile function. */ + bool IsVolatile() const { return mbVolatile; } + + /** Reads the size field of the token array. */ + static sal_uInt16 ReadSize(XclImpStream& rStrm); + /** Reads the tokens of the token array (without size field). */ + void ReadArray(sal_uInt16 nSize, XclImpStream& rStrm); + /** Reads size field and the tokens. */ + void Read( XclImpStream& rStrm ); + + /** Writes the size field of the token array. */ + void WriteSize( XclExpStream& rStrm ) const; + /** Writes the tokens of the token array (without size field). */ + void WriteArray( XclExpStream& rStrm ) const; + /** Writes size field and the tokens. */ + void Write( XclExpStream& rStrm ) const; + + /** Compares this token array with the passed. */ + bool operator==( const XclTokenArray& rTokArr ) const; + +private: + ScfUInt8Vec maTokVec; /// Byte vector containing token data. + ScfUInt8Vec maExtDataVec; /// Byte vector containing extended data (arrays, stacked NLRs). + bool mbVolatile; /// True = Formula contains volatile function. +}; + +typedef std::shared_ptr< XclTokenArray > XclTokenArrayRef; + +/** Calls the Read() function at the passed token array. */ +XclImpStream& operator>>( XclImpStream& rStrm, XclTokenArray& rTokArr ); +/** Calls the Write() function at the passed token array. */ +XclExpStream& operator<<( XclExpStream& rStrm, const XclTokenArray& rTokArr ); +/** Calls the Write() function at the passed token array. */ +XclExpStream& operator<<( XclExpStream& rStrm, const XclTokenArrayRef& rxTokArr ); + +namespace formula { class FormulaToken; } +class ScTokenArray; + +/** Special token array iterator for the Excel filters. + + Iterates over a Calc token array without modifying it (therefore the + iterator can be used with constant token arrays). + + Usage: Construct a new iterator object and pass a Calc token array, or use + the Init() function to assign another Calc token array. As long as the Is() + function returns true, the accessor functions can be used to get the + current Calc token. + */ +class XclTokenArrayIterator +{ +public: + explicit XclTokenArrayIterator(); + explicit XclTokenArrayIterator( const ScTokenArray& rScTokArr, bool bSkipSpaces ); + /** Copy constructor that allows to change the skip-spaces mode. */ + explicit XclTokenArrayIterator( const XclTokenArrayIterator& rTokArrIt, bool bSkipSpaces ); + + void Init( const ScTokenArray& rScTokArr, bool bSkipSpaces ); + + bool Is() const { return mppScToken != nullptr; } + bool operator!() const { return !Is(); } + const ::formula::FormulaToken* Get() const { return mppScToken ? *mppScToken : nullptr; } + const ::formula::FormulaToken* operator->() const { return Get(); } + const ::formula::FormulaToken& operator*() const { return *Get(); } + + XclTokenArrayIterator& operator++(); + +private: + void NextRawToken(); + void SkipSpaces(); + +private: + const ::formula::FormulaToken*const* mppScTokenBeg; /// Pointer to first token pointer of token array. + const ::formula::FormulaToken*const* mppScTokenEnd; /// Pointer behind last token pointer of token array. + const ::formula::FormulaToken*const* mppScToken; /// Pointer to current token pointer of token array. + bool mbSkipSpaces; /// true = Skip whitespace tokens. +}; + +/** Contains all cell references that can be extracted from a multiple operations formula. */ +struct XclMultipleOpRefs +{ + ScAddress maFmlaScPos; /// Position of the (first) formula cell. + ScAddress maColFirstScPos; + ScAddress maColRelScPos; + ScAddress maRowFirstScPos; + ScAddress maRowRelScPos; + bool mbDblRefMode; /// true = One formula with row and column values. +}; + +/** A helper with Excel specific token array functions. + + The purpose to not add these functions to ScTokenArray is to prevent code + changes in low-level Calc headers and to keep the Excel specific source + code in the filter directory. Deriving from ScTokenArray is not viable + because that would need expensive copy-constructions of the token arrays. + */ +class XclTokenArrayHelper +{ +public: + // token identifiers ------------------------------------------------------ + + /** Returns the classified token ID from a base ID and the token class. */ + inline static sal_uInt8 GetTokenId( sal_uInt8 nBaseId, sal_uInt8 nTokenClass ); + + /** Returns the token class of the passed token ID. */ + static sal_uInt8 GetTokenClass( sal_uInt8 nTokenId ) { return nTokenId & EXC_TOKCLASS_MASK; } + /** Changes the token class in the passed classified token ID. */ + inline static void ChangeTokenClass( sal_uInt8& rnTokenId, sal_uInt8 nTokenClass ); + + // strings and string lists ----------------------------------------------- + + /** Tries to extract a string from the passed token. + @param rString (out-parameter) The string contained in the token. + @return true = Passed token is a string token, rString parameter is valid. */ + static bool GetTokenString( OUString& rString, const ::formula::FormulaToken& rScToken ); + + /** Parses the passed formula and tries to find a single string token, i.e. "abc". + @param rString (out-parameter) The string contained in the formula. + @return true = String token found, rString parameter is valid. */ + static bool GetString( OUString& rString, const ScTokenArray& rScTokArr ); + + /** Parses the passed formula and tries to find a string token list, i.e. "abc";"def";"ghi". + @descr Returns the unquoted (!) strings in a single string, separated with the + passed character. If a comma is specified, the function will return abc,def,ghi from + the example above. + @param rStringList (out-parameter) All strings contained in the formula as list. + @param cSep List separator character. + @return true = String token list found, rString parameter is valid. */ + static bool GetStringList( OUString& rStringList, const ScTokenArray& rScTokArr, sal_Unicode cSep ); + + /** Tries to convert a formula that consists of a single string token to a list of strings. + Removes leading spaces from each token. + @descr Example: The formula ="abc\ndef\nghi" will be converted to the formula + ="abc";"def";"ghi", if the LF character is specified as separator. + @param rScTokArr (in/out-parameter) The token array to modify. + @param cStringSep The separator in the source string. */ + static void ConvertStringToList( + ScTokenArray& rScTokArr, svl::SharedStringPool& rSPool, sal_Unicode cStringSep ); + + // multiple operations ---------------------------------------------------- + + /** Parses the passed formula and tries to extract references of a multiple operation. + @descr Requires that the formula contains a single MULTIPLE.OPERATION function call. + Spaces in the formula are silently ignored. + @return true = Multiple operation found, and all references successfully extracted. */ + static bool GetMultipleOpRefs( const ScDocument& rDoc, XclMultipleOpRefs& rRefs, const ScTokenArray& rScTokArr, const ScAddress& rScPos ); +}; + +inline sal_uInt8 XclTokenArrayHelper::GetTokenId( sal_uInt8 nBaseId, sal_uInt8 nTokenClass ) +{ + OSL_ENSURE( !::get_flag( nBaseId, static_cast< sal_uInt8 >( ~EXC_TOKID_MASK ) ), "XclTokenArrayHelper::GetTokenId - invalid token ID" ); + OSL_ENSURE( !::get_flag( nTokenClass, static_cast< sal_uInt8 >( ~EXC_TOKCLASS_MASK ) ), "XclTokenArrayHelper::GetTokenId - invalid token class" ); + return nBaseId | nTokenClass; +} + +inline void XclTokenArrayHelper::ChangeTokenClass( sal_uInt8& rnTokenId, sal_uInt8 nTokenClass ) +{ + OSL_ENSURE( !::get_flag( nTokenClass, static_cast< sal_uInt8 >( ~EXC_TOKCLASS_MASK ) ), "XclTokenArrayHelper::ChangeTokenClass - invalid token class" ); + ::set_flag( rnTokenId, EXC_TOKCLASS_MASK, false ); + ::set_flag( rnTokenId, nTokenClass ); +} + +/* vim:set shiftwidth=4 softtabstop=4 expandtab: */ |