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koffice/kplato/kpttaskdefaultpanel.cc

516 lines
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/* This file is part of the KDE project
Copyright (C) 2004 Dag Andersen <danders@get2net.dk>
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;
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.
*/
#include "kpttaskdefaultpanel.h"
#include "kpttask.h"
#include "kptcommand.h"
#include "kptduration.h"
#include "kptdurationwidget.h"
#include "kptcalendar.h"
#include "kptdatetime.h"
#include "kptconfig.h"
#include "kptpart.h"
#include <tdemessagebox.h>
#include <klineedit.h>
#include <ktextedit.h>
#include <kcombobox.h>
#include <kdatetimewidget.h>
#include <tdelocale.h>
#include <kcommand.h>
#include <tdeabc/addressee.h>
#include <tdeabc/addresseedialog.h>
#include <kdatewidget.h>
#include <tqlayout.h>
#include <tqlabel.h>
#include <tqdatetime.h>
#include <tqdatetimeedit.h>
#include <tqgroupbox.h>
#include <tqpushbutton.h>
#include <tqspinbox.h>
#include <kdebug.h>
namespace KPlato
{
TaskDefaultPanel::TaskDefaultPanel(Task &task, StandardWorktime *workTime, TQWidget *parent, const char *n)
: ConfigTaskPanelImpl(parent, n),
m_task(task),
m_dayLength(24)
{
setStartValues(task, workTime);
}
void TaskDefaultPanel::setStartValues(Task &task, StandardWorktime *workTime) {
m_effort = m_duration = task.effort()->expected();
leaderfield->setText(task.leader());
descriptionfield->setText(task.description());
setEstimateFields(DurationWidget::Days|DurationWidget::Hours|DurationWidget::Minutes);
if (workTime) {
//kdDebug()<<k_funcinfo<<"daylength="<<workTime->day()<<endl;
m_dayLength = workTime->day();
if (task.effort()->type() == Effort::Type_Effort) {
setEstimateScales(m_dayLength);
}
}
setEstimateFieldUnit(0, i18n("days", "d"));
setEstimateFieldUnit(1, i18n("hours", "h"));
setEstimateFieldUnit(2, i18n("minutes", "m"));
setEstimateType(task.effort()->type());
setSchedulingType(task.constraint());
if (task.constraintStartTime().isValid()) {
setStartDateTime(task.constraintStartTime());
} else {
TQDate date = TQDate::currentDate();
setStartDateTime(TQDateTime(date, TQTime()));
}
if (task.constraintEndTime().isValid()) {
setEndDateTime(task.constraintEndTime());
} else {
setEndDateTime(TQDateTime(startDate().addDays(1), TQTime()));
}
//kdDebug()<<k_funcinfo<<"Effort: "<<task.effort()->expected().toString()<<endl;
setEstimate(task.effort()->expected());
setOptimistic(task.effort()->optimisticRatio());
setPessimistic(task.effort()->pessimisticRatio());
leaderfield->setFocus();
}
KMacroCommand *TaskDefaultPanel::buildCommand(Part *part) {
KMacroCommand *cmd = new KMacroCommand(i18n("Modify Default Task"));
bool modified = false;
Duration dt = Duration();
if (m_task.leader() != leaderfield->text()) {
cmd->addCommand(new NodeModifyLeaderCmd(part, m_task, leaderfield->text()));
modified = true;
}
if (m_task.description() != descriptionfield->text()) {
cmd->addCommand(new NodeModifyDescriptionCmd(part, m_task, descriptionfield->text()));
modified = true;
}
Node::ConstraintType c = (Node::ConstraintType)schedulingType();
if (c != m_task.constraint()) {
cmd->addCommand(new NodeModifyConstraintCmd(part, m_task, c));
modified = true;
}
if (startDateTime() != m_task.constraintStartTime() &&
(c == Node::FixedInterval || c == Node::StartNotEarlier || c == Node::MustStartOn)) {
cmd->addCommand(new NodeModifyConstraintStartTimeCmd(part, m_task, startDateTime()));
modified = true;
}
if (endDateTime() != m_task.constraintEndTime() &&
(c == Node::FinishNotLater || c == Node::FixedInterval || c == Node::MustFinishOn)) {
cmd->addCommand(new NodeModifyConstraintEndTimeCmd(part, m_task, endDateTime()));
modified = true;
}
int et = estimationType();
if (et != m_task.effort()->type()) {
cmd->addCommand(new ModifyEffortTypeCmd(part, m_task, m_task.effort()->type(), et));
modified = true;
}
dt = estimationValue();
kdDebug()<<k_funcinfo<<"Estimate: "<<dt.toString()<<endl;
bool expchanged = dt != m_task.effort()->expected();
if ( expchanged ) {
cmd->addCommand(new ModifyEffortCmd(part, m_task, m_task.effort()->expected(), dt));
modified = true;
}
int x = optimistic();
if ( x != m_task.effort()->optimisticRatio() || expchanged) {
cmd->addCommand(new EffortModifyOptimisticRatioCmd(part, m_task, m_task.effort()->optimisticRatio(), x));
modified = true;
}
x = pessimistic();
if ( x != m_task.effort()->pessimisticRatio() || expchanged) {
cmd->addCommand(new EffortModifyPessimisticRatioCmd(part, m_task, m_task.effort()->pessimisticRatio(), x));
modified = true;
}
if (!modified) {
delete cmd;
return 0;
}
return cmd;
}
bool TaskDefaultPanel::ok() {
return true;
}
void TaskDefaultPanel::estimationTypeChanged(int type) {
if (type == 0 /*Effort*/) {
Duration d = estimationValue();
setEstimateScales(m_dayLength);
//setEstimate(d);
} else {
Duration d = estimationValue();
setEstimateScales(24);
//setEstimate(d);
}
ConfigTaskPanelImpl::estimationTypeChanged(type);
}
void TaskDefaultPanel::scheduleTypeChanged(int value)
{
if (value == 6 /*Fixed interval*/) {
if (estimateType->currentItem() == 1/*duration*/){
setEstimateScales(24);
//estimate->setEnabled(false);
//setEstimate(DateTime(endDateTime()) - DateTime(startDateTime()));
}
} else {
setEstimateScales(m_dayLength);
estimate->setEnabled(true);
}
ConfigTaskPanelImpl::scheduleTypeChanged(value);
}
//-----------------------------
ConfigTaskPanelImpl::ConfigTaskPanelImpl(TQWidget *p, const char *n)
: ConfigTaskPanelBase(p, n) {
connect(leaderfield, TQT_SIGNAL(textChanged(const TQString &)), TQT_SLOT(checkAllFieldsFilled()));
connect(chooseLeader, TQT_SIGNAL(clicked()), TQT_SLOT(changeLeader()));
connect(estimateType, TQT_SIGNAL(activated(int)), TQT_SLOT(estimationTypeChanged(int)));
connect(scheduleType, TQT_SIGNAL(activated(int)), TQT_SLOT(scheduleTypeChanged(int)));
connect(scheduleStartDate, TQT_SIGNAL(changed(TQDate)), TQT_SLOT(startDateChanged()));
connect(scheduleStartTime, TQT_SIGNAL(valueChanged(const TQTime&)), TQT_SLOT(startTimeChanged(const TQTime&)));
connect(scheduleEndDate, TQT_SIGNAL(changed(TQDate)), TQT_SLOT(endDateChanged()));
connect(scheduleEndTime, TQT_SIGNAL(valueChanged(const TQTime&)), TQT_SLOT(endTimeChanged(const TQTime&)));
connect(estimate, TQT_SIGNAL(valueChanged()), TQT_SLOT(checkAllFieldsFilled()));
connect(optimisticValue, TQT_SIGNAL(valueChanged(int)), TQT_SLOT(checkAllFieldsFilled()));
connect(pessimisticValue, TQT_SIGNAL(valueChanged(int)), TQT_SLOT(checkAllFieldsFilled()));
connect(descriptionfield, TQT_SIGNAL(textChanged()), TQT_SLOT(checkAllFieldsFilled()));
}
void ConfigTaskPanelImpl::setSchedulingType(int type)
{
enableDateTime(type);
scheduleType->setCurrentItem(type);
emit schedulingTypeChanged(type);
}
int ConfigTaskPanelImpl::schedulingType() const
{
return scheduleType->currentItem();
}
void ConfigTaskPanelImpl::changeLeader()
{
KABC::Addressee a = KABC::AddresseeDialog::getAddressee(this);
if (!a.isEmpty())
{
leaderfield->setText(a.fullEmail());
}
}
void ConfigTaskPanelImpl::setEstimationType( int type )
{
estimateType->setCurrentItem(type);
}
int ConfigTaskPanelImpl::estimationType() const
{
return estimateType->currentItem();
}
void ConfigTaskPanelImpl::setOptimistic( int value )
{
optimisticValue->setValue(value);
}
void ConfigTaskPanelImpl::setPessimistic( int value )
{
pessimisticValue->setValue(value);
}
int ConfigTaskPanelImpl::optimistic() const
{
return optimisticValue->value();
}
int ConfigTaskPanelImpl::pessimistic()
{
return pessimisticValue->value();
}
void ConfigTaskPanelImpl::enableDateTime( int /*scheduleType*/ )
{
scheduleStartTime->setEnabled(true);
scheduleEndTime->setEnabled(true);
scheduleStartDate->setEnabled(true);
scheduleEndDate->setEnabled(true);
/* switch (scheduleType)
{
case 0: //ASAP
case 1: //ALAP
break;
case 2: //Must start on
case 4: // Start not earlier
if (useTime) {
scheduleStartTime->setEnabled(true);
scheduleEndTime->setEnabled(false);
}
scheduleStartDate->setEnabled(true);
scheduleEndDate->setEnabled(false);
break;
case 3: //Must finish on
case 5: // Finish not later
if (useTime) {
scheduleStartTime->setEnabled(false);
scheduleEndTime->setEnabled(true);
}
scheduleStartDate->setEnabled(false);
scheduleEndDate->setEnabled(true);
break;
case 6: //Fixed interval
if (useTime) {
scheduleStartTime->setEnabled(true);
scheduleEndTime->setEnabled(true);
}
scheduleStartDate->setEnabled(true);
scheduleEndDate->setEnabled(true);
break;
default:
break;
}*/
}
void ConfigTaskPanelImpl::estimationTypeChanged( int /*type*/ )
{
checkAllFieldsFilled();
}
void ConfigTaskPanelImpl::setEstimate( const Duration & duration)
{
estimate->setValue( duration );
}
void ConfigTaskPanelImpl::setEstimateType( int type)
{
estimateType->setCurrentItem(type);
}
void ConfigTaskPanelImpl::checkAllFieldsFilled()
{
emit changed();
emit obligatedFieldsFilled(true);
}
Duration ConfigTaskPanelImpl::estimationValue()
{
return estimate->value();
}
void ConfigTaskPanelImpl::setEstimateFields( int mask )
{
estimate->setVisibleFields(mask);
}
void ConfigTaskPanelImpl::setEstimateScales( double day )
{
estimate->setFieldScale(0, day);
estimate->setFieldRightscale(0, day);
estimate->setFieldLeftscale(1, day);
}
void ConfigTaskPanelImpl::setEstimateFieldUnit( int field, TQString unit )
{
estimate->setFieldUnit(field, unit);
}
void ConfigTaskPanelImpl::startDateChanged()
{
if (!scheduleStartDate->isEnabled()) {
return;
}
TQDate date = startDate();
if (startDateTime() > endDateTime())
{
scheduleEndTime->blockSignals(true);
scheduleEndDate->blockSignals(true);
setEndDate(date);
setEndTime(startTime());
scheduleEndTime->blockSignals(false);
scheduleEndDate->blockSignals(false);
}
if (scheduleType->currentItem() == 6 /*FixedInterval*/)
{
estimationTypeChanged(estimateType->currentItem());
}
checkAllFieldsFilled();
}
void ConfigTaskPanelImpl::startTimeChanged( const TQTime &time )
{
if (!scheduleStartTime->isEnabled()) {
return;
}
if (startDateTime() > endDateTime())
{
scheduleEndTime->blockSignals(true);
setEndTime(time);
scheduleEndTime->blockSignals(false);
}
if (scheduleType->currentItem() == 6 /*FixedInterval*/)
{
estimationTypeChanged(estimateType->currentItem());
}
checkAllFieldsFilled();
}
void ConfigTaskPanelImpl::endDateChanged()
{
if (!scheduleEndDate->isEnabled()) {
return;
}
TQDate date = endDate();
if (endDateTime() < startDateTime())
{
scheduleStartTime->blockSignals(true);
scheduleStartDate->blockSignals(true);
setStartDate(date);
setStartTime(endTime());
scheduleStartTime->blockSignals(false);
scheduleStartDate->blockSignals(false);
}
if (scheduleType->currentItem() == 6 /*FixedInterval*/)
{
estimationTypeChanged(estimateType->currentItem());
}
checkAllFieldsFilled();
}
void ConfigTaskPanelImpl::endTimeChanged( const TQTime &time )
{
if (!scheduleEndTime->isEnabled()) {
return;
}
if (endDateTime() < startDateTime())
{
scheduleStartTime->blockSignals(true);
setStartTime(time);
scheduleStartTime->blockSignals(false);
}
if (scheduleType->currentItem() == 6 /*FixedInterval*/)
{
estimationTypeChanged(estimateType->currentItem());
}
checkAllFieldsFilled();
}
void ConfigTaskPanelImpl::scheduleTypeChanged( int value )
{
estimationTypeChanged(estimateType->currentItem());
enableDateTime(value);
checkAllFieldsFilled();
}
TQDateTime ConfigTaskPanelImpl::startDateTime()
{
return TQDateTime(startDate(), startTime());
}
TQDateTime ConfigTaskPanelImpl::endDateTime()
{
return TQDateTime(endDate(), endTime());
}
void ConfigTaskPanelImpl::setStartTime( const TQTime &time )
{
scheduleStartTime->setTime(time);
}
void ConfigTaskPanelImpl::setEndTime( const TQTime &time )
{
scheduleEndTime->setTime(time);
}
TQTime ConfigTaskPanelImpl::startTime() const
{
return scheduleStartTime->time();
}
TQTime ConfigTaskPanelImpl::endTime()
{
return scheduleEndTime->time();
}
TQDate ConfigTaskPanelImpl::startDate()
{
return scheduleStartDate->date();
}
TQDate ConfigTaskPanelImpl::endDate()
{
return scheduleEndDate->date();
}
void ConfigTaskPanelImpl::setStartDateTime( const TQDateTime &dt )
{
setStartDate(dt.date());
setStartTime(dt.time());
}
void ConfigTaskPanelImpl::setEndDateTime( const TQDateTime &dt )
{
setEndDate(dt.date());
setEndTime(dt.time());
}
void ConfigTaskPanelImpl::setStartDate( const TQDate &date )
{
scheduleStartDate->setDate(date);
}
void ConfigTaskPanelImpl::setEndDate( const TQDate &date )
{
scheduleEndDate->setDate(date);
}
} //KPlato namespace
#include "kpttaskdefaultpanel.moc"