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/***************************************************************************
taskview.cpp - The task window
-------------------
begin : Tue Feb 08 13:41:00 CET 2002
copyright : (C) 2001 - 2004 by Sebastian Stein
email : seb.kde@hpfsc.de
***************************************************************************/
/***************************************************************************
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
***************************************************************************/
#include "taskview.h"
#include "taskview.moc"
/* these includes are needed for KDE support */
#include <klocale.h>
#include <kmessagebox.h>
#include <kapplication.h>
#include <knumvalidator.h>
/* these includes are needed for TQt support */
#include <tqlabel.h>
#include <tqlayout.h>
#include <tqlineedit.h>
#include <tqpushbutton.h>
#include <tqtooltip.h>
#include <tqwhatsthis.h>
/* standard C++ library includes */
#include <math.h>
/* ----- public member functions ----- */
/* constructor */
TaskView::TaskView(TQWidget * parent, const char * name, bool padd_sub,
bool pmul_div, unsigned int pnr_ratios, unsigned int pmax_md):
ExerciseBase(parent, name), add_sub(padd_sub), mul_div(pmul_div),
nr_ratios(pnr_ratios), max_md(pmax_md)
{
#ifdef DEBUG
kdDebug() << "constructor TaskView()" << endl;
#endif
curr_nr_ratios = nr_ratios;
/* create a new task */
TQApplication::setOverrideCursor(waitCursor); /* show the sand clock */
current_task.create_task(max_md, nr_ratios, add_sub, mul_div);
TQApplication::restoreOverrideCursor(); /* show the normal cursor */
// the next thing to do on a button click would be to check the entered
// result
m_currentState = _CHECK_TASK;
baseWidget = new TQWidget(this, "baseWidget");
baseGrid = new TQGridLayout(this, 1, 1, 0, -1, "baseGrid");
baseGrid->addWidget(baseWidget, 0, 0);
// this is a VBox
realLayout = new TQVBoxLayout(baseWidget, 5, 5, "realLayout");
// add a spacer at the top of the VBox
TQSpacerItem * v_spacer = new TQSpacerItem(1, 1);
realLayout->addItem(v_spacer);
// now a line holding the task, input fields and result
TQHBoxLayout * taskLineHBoxLayout = new TQHBoxLayout(5, "taskLineHBoxLayout");
realLayout->addLayout(taskLineHBoxLayout);
// first left is the task widget
m_taskWidget = new TaskWidget(baseWidget, "m_taskWidget", current_task);
// now we have the input fields aligned in a VBox
TQVBoxLayout * inputLayout = new TQVBoxLayout(5, "inputLayout");
// to validate, that the input is an int
KIntValidator *valnum = new KIntValidator( this );
/* add input box so the user can enter numerator */
numer_edit = new TQLineEdit(baseWidget, "numer_edit");
numer_edit->setValidator( valnum ); // use the int validator
TQToolTip::add(numer_edit, i18n("Enter the numerator of your result"));
inputLayout->addWidget(numer_edit);
/* add a line between the edit boxes */
edit_line = new TQFrame(baseWidget, "edit_line");
edit_line->setGeometry(TQRect(100, 100, 20, 20));
edit_line->setFrameStyle(TQFrame::HLine | TQFrame::Sunken);
inputLayout->addWidget(edit_line);
/* add input box so the user can enter denominator */
deno_edit = new TQLineEdit(baseWidget, "deno_edit");
deno_edit->setValidator( valnum ); // use the int validator
TQToolTip::add(deno_edit, i18n("Enter the denominator of your result"));
inputLayout->addWidget(deno_edit);
// next is the result widget
m_resultWidget = new ResultWidget(baseWidget, "m_resultWidget", *new ratio());
// at the right end we have a label just showing CORRECT or WRONG
result_label = new TQLabel(baseWidget, "result_label");
result_label->setText(i18n("WRONG"));
result_label->hide();
// add another spacer in the middle of the VBox
v_spacer = new TQSpacerItem(1, 1, TQSizePolicy::Expanding, TQSizePolicy::Minimum);
// --- that is the end of the horizontal line ---
// in RTL desktops, we still need to allign the
// execise to the left. On TQt4, you can set the direction
// of the tqlayout to LTR (instead of inherit), but on TQt3
// the only way of fixing it is inserting the widgets in reversed
// order to the tqlayout.
//
// if you need help with this feel free to contact me - Diego <elcuco@kde.org> )
// This should fix parts of bug #116831
if (TQApplication::reverseLayout())
{
taskLineHBoxLayout->addItem(v_spacer);
taskLineHBoxLayout->addWidget(result_label);
taskLineHBoxLayout->addWidget(m_resultWidget);
taskLineHBoxLayout->addLayout(inputLayout);
taskLineHBoxLayout->addWidget(m_taskWidget);
}
else
{
taskLineHBoxLayout->addWidget(m_taskWidget);
taskLineHBoxLayout->addLayout(inputLayout);
taskLineHBoxLayout->addWidget(m_resultWidget);
taskLineHBoxLayout->addWidget(result_label);
taskLineHBoxLayout->addItem(v_spacer);
}
// add another spacer in the middle of the VBox
v_spacer = new TQSpacerItem(1, 1);
realLayout->addItem(v_spacer);
// the lower part of the VBox holds just a right aligned button
TQHBoxLayout * lowerHBox = new TQHBoxLayout(1, "lowerHBox");
realLayout->addLayout(lowerHBox);
lowerHBox->addStretch(100);
// the right aligned button
m_checkButton = new TQPushButton( baseWidget, "m_checkButton" );
m_checkButton->setText(i18n("&Check Task"));
m_checkButton->setDefault(true); // is the default button of the dialog
TQToolTip::add(m_checkButton, i18n("Click on this button to check your result. The button will not work if you have not entered a result yet."));
lowerHBox->addWidget(m_checkButton, 1, TQt::AlignRight);
TQObject::connect(m_checkButton, TQT_SIGNAL(clicked()), this, TQT_SLOT(slotCheckButtonClicked()));
// that the user can start typing without moving the focus
numer_edit->setFocus();
// show the whole tqlayout
baseWidget->show();
// show the whole tqlayout
m_taskWidget->show();
m_resultWidget->hide();
// add tooltip and qwhatsthis help to the widget
TQToolTip::add(this, i18n("In this exercise you have to solve a given task with fractions."));
TQWhatsThis::add(this, i18n("In this exercise you have to solve the generated task. You have to enter numerator and denominator. You can adjust the difficulty of the task with the boxes in the toolbar. Do not forget to reduce the result!"));
}
/* destructor */
TaskView::~TaskView()
{
#ifdef DEBUG
kdDebug() << "destructor TaskView()" << endl;
#endif
/* no need to delete any child widgets, TQt does it by itself */
}
/** the parameters of task generation can be set with this function */
void TaskView::setTaskParameters(bool padd_sub, bool pmul_div, unsigned int pnr_ratios, unsigned int pmax_md)
{
// at least one operation must be enabled
if ((padd_sub == false) && (pmul_div == false))
padd_sub = true;
// we need at least 2 ratios
if (pnr_ratios < 2)
pnr_ratios = 2;
// we can only visualize 5 ratios, so we have to limit it
if (pnr_ratios > 5)
pnr_ratios = 5;
// the main denominator must be at least 2^pnr_ratios
if (pow(2, pnr_ratios) > pmax_md)
pmax_md = (unsigned int) pow(2, pnr_ratios);
// so everything seems to be fine, lets set the internal values to the given
// ones
add_sub = padd_sub;
mul_div = pmul_div;
max_md = pmax_md;
nr_ratios = pnr_ratios;
return;
}
/** resets the current state, creates a new task and count the last task as
* wrong, if it wasn't solved (in _NEXT_TASK state) yet
* mainly used after changing the task parameters */
void TaskView::forceNewTask()
{
#ifdef DEBUG
kdDebug() << "forceNewTask TaskView()" << endl;
#endif
if (m_currentState == _CHECK_TASK)
{
// emit the signal for wrong
signalTaskSolvedWrong();
}
m_currentState = _CHECK_TASK;
m_checkButton->setText(i18n("&Check Task"));
// generate next task
(void) nextTask();
}
/* ------ public slots ------ */
void TaskView::update()
{
// call update of components
m_taskWidget->updateAndRepaint();
m_resultWidget->updateAndRepaint();
// update for itself
((TQWidget *) this)->update();
}
/* ------ private member functions ------ */
/** - checks the entered result and compares it to the task's result
- shows the correct result and informs the user if he was right or wrong
- if the user entered the result unreduced, he will be informed about it
- if the user entered a 0 for the denominator, he will be informed about
it (division by zero)
- emits signals if task was solved right or wrong */
void TaskView::showResult()
{
TQString tmp_str; /* to build a string for a label */
TQPalette pal;
TQColorGroup cg;
// change the tooltip of the check button
TQToolTip::add(m_checkButton, i18n("Click on this button to get to the next task."));
numer_edit->setEnabled(false);
deno_edit->setEnabled(false);
result = current_task.solve();
m_resultWidget->setResult(result);
m_resultWidget->show();
// an empty numerator field will be interpreted as 0
if (numer_edit->text().isEmpty() == true)
numer_edit->setText("0");
// an empty denominator field will be interpreted as 1
if (deno_edit->text().isEmpty() == true)
deno_edit->setText("1");
/* store the entered result to check it, but without reducing */
entered_result.setNumerator(numer_edit->text().toInt(), false);
entered_result.setDenominator(deno_edit->text().toInt(), false);
// check the entered result; 0/1 == 0/5 -> true,
// but 0/1 == 0/0 -> false
// a 0 for denominator is never allowed (always counted as wrong)
//
// we have to get the 0 directly from the input field, because
// Ratio::setDenominator(0, false) will set the denominator to 1 to ensure
// the Ratio is valid
if ( (deno_edit->text().toInt() != 0) && ((entered_result == result) ||
(result.numerator() == 0 && entered_result.numerator() == 0)) )
{
// emit the signal for correct
signalTaskSolvedCorrect();
/* yes, the user entered the correct result */
result_label->setText(i18n("CORRECT"));
pal = result_label->palette(); /* set green font color */
cg = pal.active();
cg.setColor(TQColorGroup::Foreground, TQColor(6, 179, 0));
pal.setActive(cg);
cg = pal.inactive();
cg.setColor(TQColorGroup::Foreground, TQColor(6, 179, 0));
pal.setInactive(cg);
result_label->setPalette(pal);
result_label->show(); /* show the result at the end of the task */
} else {
// emit the signal for wrong
signalTaskSolvedWrong();
/* no, the user entered the wrong result */
result_label->setText(i18n("WRONG"));
pal = result_label->palette(); /* set red font color */
cg = pal.active();
cg.setColor(TQColorGroup::Foreground, TQColor(red));
pal.setActive(cg);
cg = pal.inactive();
cg.setColor(TQColorGroup::Foreground, TQColor(red));
pal.setInactive(cg);
result_label->setPalette(pal);
result_label->show(); /* show the result at the end of the task */
// if the user entered a 0 for the denominator (division by 0) we have to
// get the 0 directly from the input field, because
// Ratio::setDenominator(0, true) will set the denominator to 1 to ensure
// the Ratio is valid
if (deno_edit->text().toInt() == 0)
{
KMessageBox::information(this,
i18n("You entered a 0 as the denominator. This means division by zero, which is not allowed. This task will be counted as not correctly solved."));
} else {
/* maybe the entered ratio was not reduced */
entered_result.reduce();
if (entered_result == result)
KMessageBox::information(this,
i18n("You entered the correct result, but not reduced.\nAlways enter your results as reduced. This task will be counted as not correctly solved."));
}
} /* if (entered_result == result) */
}
/** generate the next task and show it to the user */
void TaskView::nextTask()
{
// change the tooltip of the check button
TQToolTip::add(m_checkButton, i18n("Click on this button to check your result. The button will not work if you have not entered a result yet."));
numer_edit->setEnabled(true);
deno_edit->setEnabled(true);
result_label->hide(); /* do not show the result at the end of the task */
m_resultWidget->hide();
/* clear user input */
deno_edit->setText("");
numer_edit->setText("");
numer_edit->setFocus();
/* create a new task */
TQApplication::setOverrideCursor(waitCursor); /* show the sand clock */
current_task.create_task(max_md, nr_ratios, add_sub, mul_div);
TQApplication::restoreOverrideCursor(); /* show the normal cursor */
// update the task widget
m_taskWidget->setTask((const task) (current_task));
}
/* ------ private slots ------ */
void TaskView::slotCheckButtonClicked()
{
if (m_currentState == _CHECK_TASK)
{
// if nothing has been entered by the user, we don't check the result yet
if (numer_edit->text().isEmpty() == true && deno_edit->text().isEmpty() ==
true)
return;
m_currentState = _NEXT_TASK;
m_checkButton->setText(i18n("N&ext Task"));
(void) showResult();
} else {
m_currentState = _CHECK_TASK;
m_checkButton->setText(i18n("&Check Task"));
(void) nextTask();
}
}
|