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/* This file is part of the KDE project
Copyright (C) 1998-2002 The KSpread Team
www.koffice.org/kspread
Copyright (C) 2005 Tomas Mecir <mecirt@gmail.com>
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 conversion functions
#include "functions.h"
#include "valuecalc.h"
#include "valueconverter.h"
using namespace KSpread;
// prototypes
Value func_arabic (valVector args, ValueCalc *calc, FuncExtra *);
Value func_carx (valVector args, ValueCalc *calc, FuncExtra *);
Value func_cary (valVector args, ValueCalc *calc, FuncExtra *);
Value func_decsex (valVector args, ValueCalc *calc, FuncExtra *);
Value func_polr (valVector args, ValueCalc *calc, FuncExtra *);
Value func_pola (valVector args, ValueCalc *calc, FuncExtra *);
Value func_roman (valVector args, ValueCalc *calc, FuncExtra *);
Value func_sexdec (valVector args, ValueCalc *calc, FuncExtra *);
Value func_AsciiToChar (valVector args, ValueCalc *calc, FuncExtra *);
Value func_CharToAscii (valVector args, ValueCalc *calc, FuncExtra *);
Value func_inttobool (valVector args, ValueCalc *calc, FuncExtra *);
Value func_booltoint (valVector args, ValueCalc *calc, FuncExtra *);
Value func_ToString (valVector args, ValueCalc *calc, FuncExtra *);
// registers all conversion functions
void RegisterConversionFunctions()
{
FunctionRepository* repo = FunctionRepository::self();
Function *f;
f = new Function ("ARABIC", func_arabic);
repo->add (f);
f = new Function ("CARX", func_carx);
f->setParamCount (2);
repo->add (f);
f = new Function ("CARY", func_cary);
f->setParamCount (2);
repo->add (f);
f = new Function ("DECSEX", func_decsex);
repo->add (f);
f = new Function ("POLR", func_polr);
f->setParamCount (2);
repo->add (f);
f = new Function ("POLA", func_pola);
f->setParamCount (2);
repo->add (f);
f = new Function ("ROMAN", func_roman);
repo->add (f);
f = new Function ("SEXDEC", func_sexdec);
f->setParamCount (1, 3);
repo->add (f);
f = new Function ("ASCIITOCHAR", func_AsciiToChar);
f->setParamCount (1, -1);
f->setAcceptArray ();
repo->add (f);
f = new Function ("CHARTOASCII", func_CharToAscii);
repo->add (f);
f = new Function ("BOOL2INT", func_booltoint);
repo->add (f);
f = new Function ("INT2BOOL", func_inttobool);
repo->add (f);
f = new Function ("BOOL2STRING", func_ToString);
repo->add (f);
f = new Function ("NUM2STRING", func_ToString);
repo->add (f);
f = new Function ("STRING", func_ToString);
repo->add (f);
}
// Function: POLR
Value func_polr (valVector args, ValueCalc *calc, FuncExtra *)
{
// sqrt (a^2 + b^2)
Value a = args[0];
Value b = args[1];
Value res = calc->sqrt (calc->add (calc->sqr (a), calc->sqr (b)));
return res;
}
// Function: POLA
Value func_pola (valVector args, ValueCalc *calc, FuncExtra *)
{
// acos (a / polr(a,b))
Value polr = func_polr (args, calc, 0);
if (calc->isZero (polr))
return Value::errorDIV0();
Value res = calc->acos (calc->div (args[0], polr));
return res;
}
// Function: CARX
Value func_carx (valVector args, ValueCalc *calc, FuncExtra *)
{
// a * cos(b)
Value res = calc->mul (args[0], calc->cos (args[1]));
return res;
}
// Function: CARY
Value func_cary (valVector args, ValueCalc *calc, FuncExtra *)
{
// a * sin(b)
Value res = calc->mul (args[0], calc->sin (args[1]));
return res;
}
// Function: DECSEX
Value func_decsex (valVector args, ValueCalc *calc, FuncExtra *)
{
// original function was very compicated, but I see no reason for that,
// when it can be done as simply as this ...
// maybe it was due to all the infrastructure not being ready back then
return calc->conv()->asTime (calc->div (args[0], 24));
}
// Function: SEXDEC
Value func_sexdec (valVector args, ValueCalc *calc, FuncExtra *)
{
if (args.count() == 1)
{
// convert given value to number
Value time = calc->conv()->asTime (args[0]);
return calc->mul (calc->conv()->asFloat (time), 24);
}
// convert h/m/s to number of hours
Value h = args[0];
Value m = args[1];
Value res = calc->add (h, calc->div (m, 60));
if (args.count() == 3) {
Value s = args[2];
res = calc->add (res, calc->div (s, 3600));
}
return res;
}
// Function: ROMAN
Value func_roman (valVector args, ValueCalc *calc, FuncExtra *)
{
const TQCString RNUnits[] = {"", "I", "II", "III", "IV", "V", "VI", "VII", "VIII", "IX"};
const TQCString RNTens[] = {"", "X", "XX", "XXX", "XL", "L", "LX", "LXX", "LXXX", "XC"};
const TQCString RNHundreds[] = {"", "C", "CC", "CCC", "CD", "D", "DC", "DCC", "DCCC", "CM"};
const TQCString RNThousands[] = {"", "M", "MM", "MMM"};
// precision loss is not a problem here, as we only use the 0-3999 range
long value = calc->conv()->asInteger (args[0]).asInteger ();
if ((value < 0) || (value > 3999))
return Value::errorNA();
TQString result;
result = TQString::fromLatin1 (RNThousands[(value / 1000)] +
RNHundreds[(value / 100) % 10] +
RNTens[(value / 10 ) % 10] +
RNUnits[(value) % 10]);
return Value (result);
}
// convert single roman character to decimal
// return < 0 if invalid
int func_arabic_helper (TQChar c)
{
switch (c.upper().unicode())
{
case 'M': return 1000;
case 'D': return 500;
case 'C': return 100;
case 'L': return 50;
case 'X': return 10;
case 'V': return 5;
case 'I': return 1;
}
return -1;
}
// Function: ARABIC
Value func_arabic (valVector args, ValueCalc *calc, FuncExtra *)
{
TQString roman = calc->conv()->asString (args[0]).asString();
if( roman.isEmpty() ) return Value::errorVALUE();
int val = 0, lastd = 0, d = 0;
for (unsigned i = 0; i < roman.length(); i++) {
d = func_arabic_helper( roman[i] );
if( d < 0 ) return Value::errorVALUE();
if( lastd < d ) val -= lastd;
else val += lastd;
lastd = d;
}
if( lastd < d ) val -= lastd;
else val += lastd;
return Value (val);
}
// helper for AsciiToChar
void func_a2c_helper (ValueCalc *calc, TQString &s, Value val)
{
if (val.isArray()) {
for (unsigned int row = 0; row < val.rows(); ++row)
for (unsigned int col = 0; col < val.columns(); ++col)
func_a2c_helper (calc, s, val.element (col, row));
} else {
int v = calc->conv()->asInteger (val).asInteger();
if (v == 0) return;
TQChar c (v);
s = s + c;
}
}
// Function: AsciiToChar
Value func_AsciiToChar (valVector args, ValueCalc *calc, FuncExtra *)
{
TQString str;
for (unsigned int i = 0; i < args.count(); i++)
func_a2c_helper (calc, str, args[i]);
return Value (str);
}
// Function: CharToAscii
Value func_CharToAscii (valVector args, ValueCalc *calc, FuncExtra *)
{
TQString val = calc->conv()->asString (args[0]).asString ();
if (val.length() == 1)
return Value (TQString (val[0]));
return Value::errorVALUE();
}
// Function: inttobool
Value func_inttobool (valVector args, ValueCalc *calc, FuncExtra *)
{
return calc->conv()->asBoolean (args[0]);
}
// Function: booltoint
Value func_booltoint (valVector args, ValueCalc *calc, FuncExtra *)
{
return calc->conv()->asInteger (args[0]);
}
// Function: BoolToString, NumberToString, String
Value func_ToString (valVector args, ValueCalc *calc, FuncExtra *)
{
return calc->conv()->asString (args[0]);
}
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