/* This file is part of the KDE project Copyright (C) 1998-2002 The KSpread Team www.koffice.org/kspread Copyright (C) 2005 Tomas Mecir This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ // built-in reference functions #include "kspread_cell.h" #include "kspread_sheet.h" #include "kspread_util.h" #include "kspread_value.h" #include "functions.h" #include "valuecalc.h" #include "valueconverter.h" using namespace KSpread; // prototypes (sorted alphabetically) Value func_address (valVector args, ValueCalc *calc, FuncExtra *); Value func_areas (valVector args, ValueCalc *calc, FuncExtra *); Value func_choose (valVector args, ValueCalc *calc, FuncExtra *); Value func_column (valVector args, ValueCalc *calc, FuncExtra *); Value func_columns (valVector args, ValueCalc *calc, FuncExtra *); Value func_index (valVector args, ValueCalc *calc, FuncExtra *); Value func_indirect (valVector args, ValueCalc *calc, FuncExtra *); Value func_lookup (valVector args, ValueCalc *calc, FuncExtra *); Value func_row (valVector args, ValueCalc *calc, FuncExtra *); Value func_rows (valVector args, ValueCalc *calc, FuncExtra *); // registers all reference functions void RegisterReferenceFunctions() { FunctionRepository* repo = FunctionRepository::self(); Function *f; f = new Function ("ADDRESS", func_address); f->setParamCount (2, 5); repo->add (f); f = new Function ("AREAS", func_areas); f->setParamCount (1); f->setNeedsExtra (true); repo->add (f); f = new Function ("CHOOSE", func_choose); f->setParamCount (2, -1); f->setAcceptArray (); repo->add (f); f = new Function ("COLUMN", func_column); f->setParamCount (0, 1); repo->add (f); f = new Function ("COLUMNS", func_columns); f->setParamCount (1); f->setAcceptArray (); f->setNeedsExtra (true); repo->add (f); f = new Function ("INDEX", func_index); f->setParamCount (3); f->setAcceptArray (); repo->add (f); f = new Function ("INDIRECT", func_indirect); f->setParamCount (1, 2); f->setNeedsExtra (true); repo->add (f); f = new Function ("LOOKUP", func_lookup); f->setParamCount (3); f->setAcceptArray (); repo->add (f); f = new Function ("ROW", func_row); f->setParamCount (0, 1); repo->add (f); f = new Function ("ROWS", func_rows); f->setParamCount (1); f->setAcceptArray (); f->setNeedsExtra (true); repo->add (f); } // Function: ADDRESS Value func_address (valVector args, ValueCalc *calc, FuncExtra *) { bool r1c1 = false; TQString sheetName; int absNum = 1; if (args.count() > 2) absNum = calc->conv()->asInteger (args[2]).asInteger(); if (args.count() > 3) r1c1 = !(calc->conv()->asBoolean (args[3]).asBoolean()); if (args.count() == 5) sheetName = calc->conv()->asString (args[4]).asString(); TQString result; int row = calc->conv()->asInteger (args[0]).asInteger(); int col = calc->conv()->asInteger (args[1]).asInteger(); if ( !sheetName.isEmpty() ) { result += sheetName; result += "!"; } if ( r1c1 ) { // row first bool abs = false; if ( absNum == 1 || absNum == 2 ) abs = true; result += 'R'; if ( !abs ) result += '['; result += TQString::number( row ); if ( !abs ) result += ']'; // column abs = false; if ( absNum == 1 || absNum == 3 ) abs = true; result += 'C'; if ( !abs ) result += '['; result += TQString::number( col ); if ( !abs ) result += ']'; } else { bool abs = false; if ( absNum == 1 || absNum == 3 ) abs = true; if ( abs ) result += '$'; result += Cell::columnName( col ); abs = false; if ( absNum == 1 || absNum == 2 ) abs = true; if ( abs ) result += '$'; result += TQString::number( row ); } return Value (result); } bool checkRef( TQString const & ref ) { Range r( ref ); if ( !r.isValid() ) { Point p( ref ); if ( !p.isValid() ) return false; } return true; } // Function: AREAS Value func_areas (valVector args, ValueCalc *calc, FuncExtra *e) { if (e) { if ((e->ranges[0].col1 != -1) && (e->ranges[0].row1 != -1) && (e->ranges[0].col2 != -1) && (e->ranges[0].row2 != -1)) // we have a range reference - return 1 return 1; } TQString s = calc->conv()->asString (args[0]).asString(); if ( s[0] != '(' || s[s.length() - 1] != ')' ) return Value::errorVALUE(); int l = s.length(); int num = 0; TQString ref; for ( int i = 1; i < l; ++i ) { if ( s[i] == ',' || s[i] == ')' ) { if ( !checkRef( ref ) ) return Value::errorVALUE(); else { ++num; ref = ""; } } else ref += s[i]; } return Value (num); } // Function: CHOOSE Value func_choose (valVector args, ValueCalc *calc, FuncExtra *) { int cnt = args.count () - 1; int num = calc->conv()->asInteger (args[0]).asInteger(); if ((num <= 0) || (num > cnt)) return Value::errorVALUE(); return args[num]; } // Function: INDEX Value func_index (valVector args, ValueCalc *calc, FuncExtra *) { // first argument can be either a range, then we return a given cell's // value, or a single cell containing an array - then we return the array // element. In any case, this function can assume that the given value // is the same. Because it is. Value val = args[0]; unsigned row = calc->conv()->asInteger (args[1]).asInteger() - 1; unsigned col = calc->conv()->asInteger (args[2]).asInteger() - 1; if ((row >= val.rows()) || (col >= val.columns())) return Value::errorREF(); return val.element (col, row); } // Function: LOOKUP Value func_lookup (valVector args, ValueCalc *calc, FuncExtra *) { Value num = calc->conv()->asNumeric (args[0]); if (num.isArray()) return Value::errorVALUE(); Value lookup = args[1]; Value rr = args[2]; unsigned cols = lookup.columns(); unsigned rows = lookup.rows(); if ((cols != rr.columns()) || (rows != rr.rows())) return Value::errorVALUE(); Value res = Value::errorNA(); // now traverse the array and perform comparison for (unsigned r = 0; r < rows; ++r) for (unsigned c = 0; c < cols; ++c) { // update the result, return if we cross the line Value le = lookup.element (c, r); if (calc->lower (le, num) || calc->equal (num, le)) res = rr.element (c, r); else return res; } return res; } // Function: COLUMN Value func_column (valVector args, ValueCalc *, FuncExtra *e) { int col = e ? e->mycol : 0; if (e && args.count()) col = e->ranges[0].col1; if (col > 0) return Value (col); return Value::errorVALUE(); } // Function: ROW Value func_row (valVector args, ValueCalc *, FuncExtra *e) { int row = e ? e->myrow : 0; if (e && args.count()) row = e->ranges[0].row1; if (row > 0) return Value (row); return Value::errorVALUE(); } // Function: COLUMNS Value func_columns (valVector, ValueCalc *, FuncExtra *e) { int col1 = e->ranges[0].col1; int col2 = e->ranges[0].col2; if ((col1 == -1) || (col2 == -1)) return Value::errorVALUE(); return Value (col2 - col1 + 1); } // Function: ROWS Value func_rows (valVector, ValueCalc *, FuncExtra *e) { int row1 = e->ranges[0].row1; int row2 = e->ranges[0].row2; if ((row1 == -1) || (row2 == -1)) return Value::errorVALUE(); return Value (row2 - row1 + 1); } // Function: INDIRECT Value func_indirect (valVector args, ValueCalc *calc, FuncExtra *e) { bool r1c1 = false; TQString ref = calc->conv()->asString (args[0]).asString(); if (args.count() == 2) r1c1 = !(calc->conv()->asBoolean (args[1]).asBoolean()); if (ref.isEmpty()) return Value::errorVALUE(); if ( r1c1 ) { // TODO: translate the r1c1 style to a1 style ref = ref; } Point p (ref, e->sheet->workbook(), e->sheet); if ( !p.isValid() ) return Value::errorVALUE(); Cell * cell = p.cell(); if (cell) return cell->value(); return Value::errorVALUE(); }