koffice/kexi/widget/utils/kexidatetimeformatter.cpp

/* This file is part of the KDE project
   Copyright (C) 2006 Jaroslaw Staniek <js@iidea.pl>

   This program 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, or (at your option) any later version.

   This program 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 program; see the file COPYING.  If not, write to
   the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
 * Boston, MA 02110-1301, USA.
*/

#include "kexidatetimeformatter.h"

#include <kdebug.h>
#include <klocale.h>
#include <kglobal.h>
#include <kdatepicker.h>
#include <kdatetbl.h>
#include <klineedit.h>
#include <kpopupmenu.h>
#include <kdatewidget.h>

KexiDateFormatter::KexiDateFormatter()
{
	// use "short date" format system settings
//! @todo allow to override the format using column property and/or global app settings
	TQString df( KGlobal::locale()->dateFormatShort() );
	if (df.length()>2)
		m_separator = df.mid(2,1);
	else
		m_separator = "-";
	const int separatorLen = m_separator.length();
	TQString yearMask("9999");
	TQString yearDateFormat("yyyy"), 
		monthDateFormat("MM"), 
		dayDateFormat("dd"); //for setting up m_dateFormat
	bool ok = df.length()>=8;
	int yearpos, monthpos, daypos; //result of df.find()
	if (ok) {//look at % variables
//! @todo more variables are possible here, see void KLocale::setDateFormatShort() docs
//!       http://developer.kde.org/documentation/library/3.5-api/tdelibs-apidocs/tdecore/html/classKLocale.html#a59
		yearpos = df.find("%y", 0, false); //&y or %y
		m_longYear = !(yearpos>=0 && df.mid(yearpos+1, 1)=="y"); 
		if (!m_longYear) {
			yearMask = "99";
			yearDateFormat = "yy";
		}
		monthpos = df.find("%m", 0, true); //%m or %n
		m_monthWithLeadingZero = true;
		if (monthpos<0) {
			monthpos = df.find("%n", 0, false);
			m_monthWithLeadingZero = false;
			monthDateFormat = "M";
		}
		daypos = df.find("%d", 0, true);//%d or %e
		m_dayWithLeadingZero = true;
		if (daypos<0) {
			daypos = df.find("%e", 0, false);
			m_dayWithLeadingZero = false;
			dayDateFormat = "d";
		}
		ok = (yearpos>=0 && monthpos>=0 && daypos>=0);
	}
	m_order = TQDateEdit::YMD; //default
	if (ok) {
		if (yearpos<monthpos && monthpos<daypos) {
			//will be set in "default: YMD"
		}
		else if (yearpos<daypos && daypos<monthpos) {
			m_order = TQDateEdit::YDM;
//! @todo use TQRegExp (to replace %Y by %1, etc.) instead of hardcoded "%1%299%399" 
//!       because df may contain also other characters
			m_inputMask = TQString("%1%299%399").tqarg(yearMask).tqarg(m_separator).tqarg(m_separator);
			m_qtFormat = yearDateFormat+m_separator+dayDateFormat+m_separator+monthDateFormat;
			m_yearpos = 0;
			m_daypos = yearMask.length()+separatorLen;
			m_monthpos = m_daypos+2+separatorLen;
		}
		else if (daypos<monthpos && monthpos<yearpos) {
			m_order = TQDateEdit::DMY;
			m_inputMask = TQString("99%199%2%3").tqarg(m_separator).tqarg(m_separator).tqarg(yearMask);
			m_qtFormat = dayDateFormat+m_separator+monthDateFormat+m_separator+yearDateFormat;
			m_daypos = 0;
			m_monthpos = 2+separatorLen;
			m_yearpos = m_monthpos+2+separatorLen;
		}
		else if (monthpos<daypos && daypos<yearpos) {
			m_order = TQDateEdit::MDY;
			m_inputMask = TQString("99%199%2%3").tqarg(m_separator).tqarg(m_separator).tqarg(yearMask);
			m_qtFormat = monthDateFormat+m_separator+dayDateFormat+m_separator+yearDateFormat;
			m_monthpos = 0;
			m_daypos = 2+separatorLen;
			m_yearpos = m_daypos+2+separatorLen;
		}
		else
			ok = false;
	}
	if (!ok || m_order == TQDateEdit::YMD) {//default: YMD
		m_inputMask = TQString("%1%299%399").tqarg(yearMask).tqarg(m_separator).tqarg(m_separator);
		m_qtFormat = yearDateFormat+m_separator+monthDateFormat+m_separator+dayDateFormat;
		m_yearpos = 0;
		m_monthpos = yearMask.length()+separatorLen;
		m_daypos = m_monthpos+2+separatorLen;
	}
	m_inputMask += ";_";
}

KexiDateFormatter::~KexiDateFormatter()
{
}

TQDate KexiDateFormatter::stringToDate( const TQString& str ) const
{
	bool ok = true;
	int year = str.mid(m_yearpos, m_longYear ? 4 : 2).toInt(&ok);
	if (!ok)
		return TQDate();
	if (year < 30) {//2000..2029
		year = 2000 + year;
	}
	else if (year < 100) {//1930..1999
		year = 1900 + year;
	}

	int month = str.mid(m_monthpos, 2).toInt(&ok);
	if (!ok)
		return TQDate();

	int day = str.mid(m_daypos, 2).toInt(&ok);
	if (!ok)
		return TQDate();

	TQDate date(year, month, day);
	if (!date.isValid())
		return TQDate();
	return date;
}

TQVariant KexiDateFormatter::stringToVariant( const TQString& str ) const
{
	if (isEmpty(str))
		return TQVariant();
	const TQDate date( stringToDate( str ) );
	if (date.isValid())
		return date;
	return TQVariant();
}

bool KexiDateFormatter::isEmpty( const TQString& str ) const
{
	TQString s(str);
	return s.replace(m_separator,"").stripWhiteSpace().isEmpty();
}

TQString KexiDateFormatter::dateToString( const TQDate& date ) const
{
	return date.toString(m_qtFormat);
}

//------------------------------------------------

KexiTimeFormatter::KexiTimeFormatter()
: m_hmsRegExp( new TQRegExp("(\\d*):(\\d*):(\\d*).*( am| pm){,1}", false/*!CS*/) )
 , m_hmRegExp( new TQRegExp("(\\d*):(\\d*).*( am| pm){,1}", false/*!CS*/) )
{
	TQString tf( KGlobal::locale()->timeFormat() );
	//m_hourpos, m_minpos, m_secpos; are result of tf.find()
	TQString hourVariable, minVariable, secVariable;

	//detect position of HOUR section: find %H or %k or %I or %l
	m_24h = true;
	m_hoursWithLeadingZero = true;
	m_hourpos = tf.find("%H", 0, true);
	if (m_hourpos>=0) {
		m_24h = true;
		m_hoursWithLeadingZero = true;
	}
	else {
		m_hourpos = tf.find("%k", 0, true);
		if (m_hourpos>=0) {
			m_24h = true;
			m_hoursWithLeadingZero = false;
		}
		else {
			m_hourpos = tf.find("%I", 0, true);
			if (m_hourpos>=0) {
				m_24h = false;
				m_hoursWithLeadingZero = true;
			}
			else {
				m_hourpos = tf.find("%l", 0, true);
				if (m_hourpos>=0) {
					m_24h = false;
					m_hoursWithLeadingZero = false;
				}
			}
		}
	}
	m_minpos = tf.find("%M", 0, true);
	m_secpos = tf.find("%S", 0, true); //can be -1
	m_ampmpos = tf.find("%p", 0, true); //can be -1

	if (m_hourpos<0 || m_minpos<0) {
		//set default: hr and min are needed, sec are optional
		tf = "%H:%M:%S";
		m_24h = true;
		m_hoursWithLeadingZero = false;
		m_hourpos = 0;
		m_minpos = 3;
		m_secpos = m_minpos + 3;
		m_ampmpos = -1;
	}
	hourVariable = tf.mid(m_hourpos, 2);

	m_inputMask = tf;
//	m_inputMask.replace( hourVariable, "00" );
//	m_inputMask.replace( "%M", "00" );
//	m_inputMask.replace( "%S", "00" ); //optional
	m_inputMask.replace( hourVariable, "99" );
	m_inputMask.replace( "%M", "99" );
	m_inputMask.replace( "%S", "00" ); //optional
	m_inputMask.replace( "%p", "AA" ); //am or pm
	m_inputMask += ";_";

	m_outputFormat = tf;
}

KexiTimeFormatter::~KexiTimeFormatter()
{
	delete m_hmsRegExp;
	delete m_hmRegExp;
}

TQTime KexiTimeFormatter::stringToTime( const TQString& str ) const
{
	int hour, min, sec;
	bool pm = false;

	bool tryWithoutSeconds = true;
	if (m_secpos>=0) {
		if (-1 != m_hmsRegExp->search(str)) {
			hour = m_hmsRegExp->cap(1).toInt();
			min = m_hmsRegExp->cap(2).toInt();
			sec = m_hmsRegExp->cap(3).toInt();
			if (m_ampmpos >= 0 && m_hmsRegExp->numCaptures()>3)
				pm = m_hmsRegExp->cap(4).stripWhiteSpace().lower()=="pm";
			tryWithoutSeconds = false;
		}
	}
	if (tryWithoutSeconds) {
		if (-1 == m_hmRegExp->search(str))
			return TQTime(99,0,0);
		hour = m_hmRegExp->cap(1).toInt();
		min = m_hmRegExp->cap(2).toInt();
		sec = 0;
		if (m_ampmpos >= 0 && m_hmRegExp->numCaptures()>2)
			pm = m_hmsRegExp->cap(4).lower()=="pm";
	}

	if (pm && hour < 12)
		hour += 12; //PM
	return TQTime(hour, min, sec);
}

TQVariant KexiTimeFormatter::stringToVariant( const TQString& str )
{
	if (isEmpty( str ))
		return TQVariant();
	const TQTime time( stringToTime( str ) );
	if (time.isValid())
		return time;
	return TQVariant();
}

bool KexiTimeFormatter::isEmpty( const TQString& str ) const
{
	TQString s(str);
	return s.replace(':',"").stripWhiteSpace().isEmpty();
}

TQString KexiTimeFormatter::timeToString( const TQTime& time ) const
{
	if (!time.isValid())
		return TQString();

	TQString s(m_outputFormat);
	if (m_24h) {
		if (m_hoursWithLeadingZero)
			s.replace( "%H", TQString::tqfromLatin1(time.hour()<10 ? "0" : "") + TQString::number(time.hour()) );
		else
			s.replace( "%k", TQString::number(time.hour()) );
	}
	else {
		int time12 = (time.hour()>12) ? (time.hour()-12) : time.hour();
		if (m_hoursWithLeadingZero)
			s.replace( "%I", TQString::tqfromLatin1(time12<10 ? "0" : "") + TQString::number(time12) );
		else
			s.replace( "%l", TQString::number(time12) );
	}
	s.replace( "%M", TQString::tqfromLatin1(time.minute()<10 ? "0" : "") + TQString::number(time.minute()) );
	if (m_secpos>=0)
		s.replace( "%S", TQString::tqfromLatin1(time.second()<10 ? "0" : "") + TQString::number(time.second()) );
	if (m_ampmpos>=0)
		s.replace( "%p", KGlobal::locale()->translate( time.hour()>=12 ? "pm" : "am") );
	return s;
}

//------------------------------------------------

TQString dateTimeInputMask(const KexiDateFormatter& dateFormatter, const KexiTimeFormatter& timeFormatter)
{
	TQString mask(dateFormatter.inputMask());
	mask.truncate(dateFormatter.inputMask().length()-2);
	return mask + " " + timeFormatter.inputMask();
}

TQDateTime stringToDateTime(
	const KexiDateFormatter& dateFormatter, const KexiTimeFormatter& timeFormatter, const TQString& str)
{
	TQString s( str.stripWhiteSpace() );
	const int timepos = s.find(" ");
	const bool emptyTime = timepos >= 0 && timeFormatter.isEmpty(s.mid(timepos+1)); //.replace(':',"").stripWhiteSpace().isEmpty();
	if (emptyTime)
		s = s.left(timepos);
	if (timepos>0 && !emptyTime) {
		return TQDateTime(
			dateFormatter.stringToDate( s.left(timepos) ),
			timeFormatter.stringToTime( s.mid(timepos+1) )
		);
	}
	else {
		return TQDateTime(
			dateFormatter.stringToDate( s ),
			TQTime(0,0,0)
		);
	}
}

bool dateTimeIsEmpty( const KexiDateFormatter& dateFormatter, const KexiTimeFormatter& timeFormatter, 
	const TQString& str )
{
	int timepos = str.find(" ");
	const bool emptyTime = timepos >= 0 && timeFormatter.isEmpty(str.mid(timepos+1)); //s.mid(timepos+1).replace(':',"").stripWhiteSpace().isEmpty();
	return (timepos >= 0 && dateFormatter.isEmpty(str.left(timepos)) //s.left(timepos).replace(m_dateFormatter.separator(), "").stripWhiteSpace().isEmpty()
		&& emptyTime);
}

bool dateTimeIsValid( const KexiDateFormatter& dateFormatter, 
	const KexiTimeFormatter& timeFormatter, const TQString& str )
{
	int timepos = str.find(" ");
	const bool emptyTime = timepos >= 0 && timeFormatter.isEmpty(str.mid(timepos+1)); //s.mid(timepos+1).replace(':',"").stripWhiteSpace().isEmpty();
	if (timepos >= 0 && dateFormatter.isEmpty(str.left(timepos)) // s.left(timepos).replace(m_dateFormatter.separator(), "").stripWhiteSpace().isEmpty()
		&& emptyTime)
		//empty date/time is valid
		return true;
	return timepos>=0 && dateFormatter.stringToDate( str.left(timepos) ).isValid()
		&& (emptyTime /*date without time is also valid*/ || timeFormatter.stringToTime( str.mid(timepos+1) ).isValid());
}