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wfview/freqctrl.cpp

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25 KiB
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/*
* Frequency controller widget (originally from CuteSDR)
*
* This file is part of wfview
*
* Copyright 2010 Moe Wheatley AE4JY
* Copyright 2012-2017 Alexandru Csete OZ9AEC
* Copyright 2023 Phil Taylor M0VSE
* All rights reserved.
*
* This software is released under the "Simplified BSD License".
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include <QDebug>
#include "freqctrl.h"
#include "logcategories.h"
// Manual adjustment of Font size as percent of control height
#define DIGIT_SIZE_PERCENT 90
#define UNITS_SIZE_PERCENT 60
// adjustment for separation between digits
#define SEPRATIO_N 100 // separation rectangle size ratio numerator times 100
#define SEPRATIO_D 3 // separation rectangle size ratio denominator
#define STATUS_TIP \
"Scroll or left-click to increase/decrease digit. " \
"Right-click to clear digits."
freqCtrl::freqCtrl(QWidget *parent) :
QFrame(parent)
{
setAutoFillBackground(false);
setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding);
setFocusPolicy(Qt::StrongFocus);
setMouseTracking(true);
m_BkColor = QColor(0x1F, 0x1D, 0x1D, 0xFF);
m_InactiveColor = QColor(0x43, 0x43, 0x43, 0xFF);
m_DigitColor = QColor(0xFF, 0xFF, 0xFF, 0xFF);
m_HighlightColor = QColor(0x5A, 0x5A, 0x5A, 0xFF);
m_UnitsColor = Qt::gray;
m_freq = 146123456;
setup(0, 1, 4000000000U, 1, FCTL_UNIT_NONE);
m_Oldfreq = 0;
m_LastLeadZeroPos = 0;
m_LRMouseFreqSel = false;
m_ActiveEditDigit = -1;
m_ResetLowerDigits = true;
m_InvertScrolling = false;
int fontid = QFontDatabase::addApplicationFont(":/resources/frequency.ttf");
QString font = QFontDatabase::applicationFontFamilies(fontid).at(0);
m_UnitsFont = QFont(font,12,QFont::Normal);
m_DigitFont = QFont(font,12,QFont::Normal);
//m_UnitsFont = QFont("Arial", 12, QFont::Normal);
//m_DigitFont = QFont("Arial", 12, QFont::Normal);
setStatusTip(tr(STATUS_TIP));
}
freqCtrl::~freqCtrl()
{
}
QSize freqCtrl::minimumSizeHint() const
{
return QSize(100, 20);
}
QSize freqCtrl::sizeHint() const
{
return QSize(100, 20);
}
bool freqCtrl::inRect(QRect &rect, QPointF &point)
{
if ((point.x() < rect.right()) && (point.x() > rect.x()) &&
(point.y() < rect.bottom()) && (point.y() > rect.y()))
return true;
else
return false;
}
void freqCtrl::setActiveDigit(int idx)
{
for (int i = m_DigStart; i < m_NumDigits; i++)
{
if (i == idx)
{
if (!m_DigitInfo[i].editmode)
{
m_DigitInfo[i].editmode = true;
m_ActiveEditDigit = i;
}
}
else
{
// un-highlight the previous digit if moved off it
if (m_DigitInfo[i].editmode)
{
m_DigitInfo[i].editmode = false;
m_DigitInfo[i].modified = true;
}
}
}
updateCtrl(false);
}
static int fmax_to_numdigits(qint64 fmax)
{
if (fmax < 10e6)
return 7;
else if (fmax < 100e6)
return 8;
else if (fmax < 1e9)
return 9;
else if (fmax < 10e9)
return 10;
else if (fmax < 100e9)
return 11;
return 12;
}
void freqCtrl::setup(int NumDigits, qint64 Minf, qint64 Maxf, int MinStep,
FctlUnit unit, std::vector<bandType>* bands)
{
int i;
qint64 pwr = 1;
m_LastEditDigit = 0;
m_Oldfreq = -1;
m_NumDigits = NumDigits ? NumDigits : fmax_to_numdigits(Maxf);
m_Bands = bands;
if (m_NumDigits > FCTL_MAX_DIGITS)
m_NumDigits = FCTL_MAX_DIGITS;
if (m_NumDigits < FCTL_MIN_DIGITS)
m_NumDigits = FCTL_MIN_DIGITS;
m_UnitString = "";
m_MinStep = MinStep;
if (m_MinStep == 0)
m_MinStep = 1;
m_MinFreq = Minf;
m_MaxFreq = Maxf;
if (m_freq < m_MinFreq)
m_freq = m_MinFreq;
if (m_freq > m_MaxFreq)
m_freq = m_MaxFreq;
for (i = 0; i < m_NumDigits; i++)
{
m_DigitInfo[i].weight = pwr;
m_DigitInfo[i].incval = pwr;
m_DigitInfo[i].modified = true;
m_DigitInfo[i].editmode = false;
m_DigitInfo[i].val = 0;
pwr *= 10;
}
if (m_MaxFreq > pwr)
m_MaxFreq = pwr - 1;
m_MaxFreq = m_MaxFreq - m_MaxFreq % m_MinStep;
if (m_MinFreq > pwr)
m_MinFreq = 1;
m_MinFreq = m_MinFreq - m_MinFreq % m_MinStep;
m_DigStart = 0;
setUnit(unit);
for (i = m_NumDigits - 1; i >= 0; i--)
{
if (m_DigitInfo[i].weight <= m_MinStep)
{
if (m_DigStart == 0)
{
m_DigitInfo[i].incval = m_MinStep;
m_DigStart = i;
}
else
{
if ((m_MinStep % m_DigitInfo[i + 1].weight) != 0)
m_DigStart = i;
m_DigitInfo[i].incval = 0;
}
}
}
m_NumSeps = (m_NumDigits - 1) / 3 - m_DigStart / 3;
}
void freqCtrl::setFrequency(qint64 freq)
{
int i;
qint64 acc = 0;
qint64 rem;
int val;
if (freq == m_Oldfreq)
return;
/*
* This needs working on, to restrict to only valid bands!
if (m_Bands != Q_NULLPTR) {
// We have bands so make sure the frequency is within at least one of them!
for (int i=0;i<m_Bands->size();i++)
{
if (freq >= m_Bands->at(i).lowFreq && freq <= m_Bands->at(i).highFreq)
{
break;
}
if (m_Oldfreq >= m_Bands->at(i).lowFreq && m_Oldfreq <= m_Bands->at(i).highFreq)
{
// The old frequency WAS in this band but it isn't now!
if (freq >= m_Bands->at(i).highFreq && i <= m_Bands->size()-1)
{
freq=m_Bands->at(i+1).lowFreq;
}
else if (freq < m_Bands->at(i).lowFreq && i > 0)
{
freq=m_Bands->at(i-1).highFreq;
}
else
{
// Couldn't match it!
freq = m_Oldfreq;
}
break;
}
}
} else {
*/
if (freq < m_MinFreq)
freq = m_MinFreq;
if (freq > m_MaxFreq)
freq = m_MaxFreq;
m_freq = freq - freq % m_MinStep;
rem = m_freq;
m_LeadZeroPos = m_NumDigits;
for (i = m_NumDigits - 1; i >= m_DigStart; i--)
{
val = (int)(rem / m_DigitInfo[i].weight);
if (m_DigitInfo[i].val != val)
{
m_DigitInfo[i].val = val;
m_DigitInfo[i].modified = true;
}
rem = rem - val * m_DigitInfo[i].weight;
acc += val;
if ((acc == 0) && (i > m_DecPos))
{
m_LeadZeroPos = i;
}
}
// If the sign changed and the frequency is less than 1 unit,
// redraw the leading zero to get the correct sign.
if ((m_Oldfreq ^ m_freq) < 0 && m_DigitInfo[m_LeadZeroPos - 1].val == 0)
m_DigitInfo[m_LeadZeroPos - 1].modified = true;
// When frequency is negative all non-zero digits that
// have changed will have a negative sign. This loop will
// change all digits back to positive, except the one at
// position m_leadZeroPos-1. If that position is zero,
// it will be checked in the drawing method, drawDigits().
/** TBC if this works for all configurations */
if (m_freq < 0)
{
if (m_DigitInfo[m_LeadZeroPos - 1].val > 0)
m_DigitInfo[m_LeadZeroPos -
1].val = -m_DigitInfo[m_LeadZeroPos - 1].val;
for (i = 0; i < (m_LeadZeroPos - 1); i++)
{
if (m_DigitInfo[i].val < 0)
m_DigitInfo[i].val = -m_DigitInfo[i].val;
}
}
// signal the new frequency to world
m_Oldfreq = m_freq;
emit newFrequency(m_freq);
updateCtrl(m_LastLeadZeroPos != m_LeadZeroPos);
m_LastLeadZeroPos = m_LeadZeroPos;
}
void freqCtrl::setDigitColor(QColor col)
{
m_UpdateAll = true;
m_DigitColor = col;
for (int i = m_DigStart; i < m_NumDigits; i++)
m_DigitInfo[i].modified = true;
updateCtrl(true);
}
void freqCtrl::setUnit(FctlUnit unit)
{
m_NumDigitsForUnit = 2;
switch (unit)
{
case FCTL_UNIT_NONE:
m_NumDigitsForUnit = 0;
m_DecPos = 0;
m_UnitString = QString();
break;
case FCTL_UNIT_HZ:
m_DecPos = 0;
m_UnitString = "Hz ";
break;
case FCTL_UNIT_KHZ:
m_DecPos = 3;
m_UnitString = "kHz";
break;
case FCTL_UNIT_MHZ:
m_DecPos = 6;
m_UnitString = "MHz";
break;
case FCTL_UNIT_GHZ:
m_DecPos = 9;
m_UnitString = "GHz";
break;
case FCTL_UNIT_SEC:
m_DecPos = 6;
m_UnitString = "Sec";
break;
case FCTL_UNIT_MSEC:
m_DecPos = 3;
m_UnitString = "mS ";
break;
case FCTL_UNIT_USEC:
m_DecPos = 0;
m_UnitString = "uS ";
break;
case FCTL_UNIT_NSEC:
m_DecPos = 0;
m_UnitString = "nS ";
break;
}
m_Unit = unit;
m_UpdateAll = true;
updateCtrl(true);
}
void freqCtrl::setBgColor(QColor col)
{
m_UpdateAll = true;
m_BkColor = col;
for (int i = m_DigStart; i < m_NumDigits; i++)
m_DigitInfo[i].modified = true;
updateCtrl(true);
}
void freqCtrl::setUnitsColor(QColor col)
{
m_UpdateAll = true;
m_UnitsColor = col;
updateCtrl(true);
}
void freqCtrl::setHighlightColor(QColor col)
{
m_UpdateAll = true;
m_HighlightColor = col;
updateCtrl(true);
}
void freqCtrl::updateCtrl(bool all)
{
if (all)
{
m_UpdateAll = true;
for (int i = m_DigStart; i < m_NumDigits; i++)
m_DigitInfo[i].modified = true;
}
update();
}
void freqCtrl::resizeEvent(QResizeEvent *)
{
// qDebug() <<rect.width() << rect.height();
qreal dpr = devicePixelRatioF();
m_Pixmap = QPixmap(width() * dpr, height() * dpr); // resize pixmap to current control size
m_Pixmap.setDevicePixelRatio(dpr);
m_Pixmap.fill(m_BkColor);
m_UpdateAll = true;
updateCtrl(true);
}
void freqCtrl::leaveEvent(QEvent *)
{
// called when mouse cursor leaves this control so deactivate any highlights
if (m_ActiveEditDigit >= 0)
{
if (m_DigitInfo[m_ActiveEditDigit].editmode)
{
m_DigitInfo[m_ActiveEditDigit].editmode = false;
m_DigitInfo[m_ActiveEditDigit].modified = true;
m_ActiveEditDigit = -1;
updateCtrl(false);
}
}
}
void freqCtrl::paintEvent(QPaintEvent *)
{
QPainter painter(&m_Pixmap);
if (m_UpdateAll) // if need to redraw everything
{
drawBkGround(painter);
m_UpdateAll = false;
}
// draw any modified digits to the m_MemDC
drawDigits(painter);
// now draw pixmap onto screen
QPainter scrnpainter(this);
scrnpainter.drawPixmap(0, 0, m_Pixmap); // blt to the screen(flickers like a candle, why?)
}
void freqCtrl::mouseMoveEvent(QMouseEvent *event)
{
#if QT_VERSION < QT_VERSION_CHECK(6, 0, 0)
QPointF pt = event->localPos();
#else
QPointF pt = event->position();
#endif
// find which digit is to be edited
if (isActiveWindow())
{
if (!hasFocus())
setFocus(Qt::MouseFocusReason);
for (int i = m_DigStart; i < m_NumDigits; i++)
{
if (inRect(m_DigitInfo[i].dQRect, pt))
{
setActiveDigit(i);
}
}
}
}
void freqCtrl::mousePressEvent(QMouseEvent *event)
{
#if QT_VERSION < QT_VERSION_CHECK(6, 0, 0)
QPointF pt = event->localPos();
#else
QPointF pt = event->position();
#endif
if (event->button() == Qt::LeftButton)
{
for (int i = m_DigStart; i < m_NumDigits; i++)
{
if (inRect(m_DigitInfo[i].dQRect, pt)) // if in i'th digit
{
if (m_LRMouseFreqSel)
{
incFreq();
}
else
{
if (pt.y() < m_DigitInfo[i].dQRect.bottom() / 2) // top half?
incFreq();
else
decFreq(); // bottom half
}
}
}
}
else if (event->button() == Qt::RightButton)
{
for (int i = m_DigStart; i < m_NumDigits; i++)
{
if (inRect(m_DigitInfo[i].dQRect, pt)) // if in i'th digit
{
if (m_LRMouseFreqSel)
{
decFreq();
}
else
{
clearFreq();
}
}
}
}
}
void freqCtrl::wheelEvent(QWheelEvent *event)
{
#if QT_VERSION < QT_VERSION_CHECK(5, 14, 0)
QPointF pt = QPointF(event->pos());
#else
QPointF pt = event->position();
#endif
int delta = m_InvertScrolling ? -event->angleDelta().y() : event->angleDelta().y();
int numDegrees = delta / 8;
int numSteps = numDegrees / 15;
for (int i = m_DigStart; i < m_NumDigits; i++)
{
if (inRect(m_DigitInfo[i].dQRect, pt)) // if in i'th digit
{
if (numSteps > 0)
incFreq();
else if (numSteps < 0)
decFreq();
}
}
}
void freqCtrl::keyPressEvent(QKeyEvent *event)
{
// call base class if dont over ride key
bool fSkipMsg = false;
qint64 tmp;
// qDebug() <<event->key();
switch (event->key())
{
case Qt::Key_0:
case Qt::Key_1:
case Qt::Key_2:
case Qt::Key_3:
case Qt::Key_4:
case Qt::Key_5:
case Qt::Key_6:
case Qt::Key_7:
case Qt::Key_8:
case Qt::Key_9:
if (m_ActiveEditDigit >= 0)
{
if (m_DigitInfo[m_ActiveEditDigit].editmode)
{
tmp = (m_freq / m_DigitInfo[m_ActiveEditDigit].weight) % 10;
m_freq -= tmp * m_DigitInfo[m_ActiveEditDigit].weight;
m_freq = m_freq + (event->key() - '0') *
m_DigitInfo[m_ActiveEditDigit].weight;
setFrequency(m_freq);
}
}
moveCursorRight();
fSkipMsg = true;
break;
case Qt::Key_Backspace:
case Qt::Key_Left:
if (m_ActiveEditDigit != -1)
{
moveCursorLeft();
fSkipMsg = true;
}
break;
case Qt::Key_Up:
if (m_ActiveEditDigit != -1)
{
incFreq();
fSkipMsg = true;
}
break;
case Qt::Key_Down:
if (m_ActiveEditDigit != -1)
{
decFreq();
fSkipMsg = true;
}
break;
case Qt::Key_Right:
if (m_ActiveEditDigit != -1)
{
moveCursorRight();
fSkipMsg = true;
}
break;
case Qt::Key_Home:
cursorHome();
fSkipMsg = true;
break;
case Qt::Key_End:
cursorEnd();
fSkipMsg = true;
break;
default:
break;
}
if (!fSkipMsg)
QFrame::keyPressEvent(event);
}
void freqCtrl::drawBkGround(QPainter &Painter)
{
QRect rect(0, 0, width(), height());
// qDebug() <<rect;
int cellwidth = 100 * rect.width() /
(100 * (m_NumDigits + m_NumDigitsForUnit) +
(m_NumSeps * SEPRATIO_N) / SEPRATIO_D);
int sepwidth = (SEPRATIO_N * cellwidth) / (100 * SEPRATIO_D);
// qDebug() <<cellwidth <<sepwidth;
// draw unit text
if (m_Unit != FCTL_UNIT_NONE)
{
m_UnitsRect.setRect(rect.right() - 2 * cellwidth, rect.top(),
2 * cellwidth, rect.height());
Painter.fillRect(m_UnitsRect, m_BkColor); // FIXME: not necessary?
m_UnitsFont.setPixelSize((UNITS_SIZE_PERCENT * rect.height()) / 100);
//m_UnitsFont.setFamily("Arial");
Painter.setFont(m_UnitsFont);
Painter.setPen(m_UnitsColor);
Painter.drawText(m_UnitsRect, Qt::AlignHCenter | Qt::AlignVCenter,
m_UnitString);
}
// draw digits
m_DigitFont.setPixelSize((DIGIT_SIZE_PERCENT * rect.height()) / 100);
//m_DigitFont.setFamily("Arial");
Painter.setFont(m_DigitFont);
Painter.setPen(m_DigitColor);
char dgsep = ' '; // digit group separator
int digpos = rect.right() - m_NumDigitsForUnit * cellwidth - 1; // starting digit x position
for (int i = m_DigStart; i < m_NumDigits; i++)
{
if ((i > m_DigStart) && ((i % 3) == 0))
{
m_SepRect[i].setCoords(digpos - sepwidth,
rect.top(),
digpos,
rect.bottom());
Painter.fillRect(m_SepRect[i], m_BkColor);
digpos -= sepwidth;
if (m_Unit == FCTL_UNIT_NONE)
{
if (m_LeadZeroPos > i)
dgsep = '.';
else
dgsep = ' ';
}
else
{
if (i == m_DecPos)
dgsep = '.';
else
dgsep = ' ';
}
Painter.drawText(m_SepRect[i], Qt::AlignHCenter | Qt::AlignVCenter,
QChar(dgsep));
}
else
{
m_SepRect[i].setCoords(0, 0, 0, 0);
}
m_DigitInfo[i].dQRect.setCoords(digpos - cellwidth, rect.top(),
digpos, rect.bottom());
digpos -= cellwidth;
}
}
// Draws just the Digits that have been modified
void freqCtrl::drawDigits(QPainter &Painter)
{
Painter.setFont(m_DigitFont);
m_FirstEditableDigit = m_DigStart;
for (int i = m_DigStart; i < m_NumDigits; i++)
{
if (m_DigitInfo[i].incval == 0)
m_FirstEditableDigit++;
if (m_DigitInfo[i].modified || m_DigitInfo[i].editmode)
{
if (m_DigitInfo[i].editmode && m_DigitInfo[i].incval != 0)
Painter.fillRect(m_DigitInfo[i].dQRect, m_HighlightColor);
else
Painter.fillRect(m_DigitInfo[i].dQRect, m_BkColor);
if (i >= m_LeadZeroPos)
Painter.setPen(m_InactiveColor);
else
Painter.setPen(m_DigitColor);
if (m_freq < 0 && i == m_LeadZeroPos - 1 && m_DigitInfo[i].val == 0)
Painter.drawText(m_DigitInfo[i].dQRect,
Qt::AlignHCenter | Qt::AlignVCenter,
QString("-0"));
else
Painter.drawText(m_DigitInfo[i].dQRect,
Qt::AlignHCenter | Qt::AlignVCenter,
QString().number(m_DigitInfo[i].val));
m_DigitInfo[i].modified = false;
}
}
}
// Increment just the digit active in edit mode
void freqCtrl::incDigit()
{
/** FIXME: no longer used? */
int tmp;
qint64 tmpl;
if (m_ActiveEditDigit >= 0)
{
if (m_DigitInfo[m_ActiveEditDigit].editmode)
{
if (m_DigitInfo[m_ActiveEditDigit].weight ==
m_DigitInfo[m_ActiveEditDigit].incval)
{
// get the current digit value
tmp =
(int)((m_freq / m_DigitInfo[m_ActiveEditDigit].weight) %
10);
// set the current digit value to zero
m_freq -= tmp * m_DigitInfo[m_ActiveEditDigit].weight;
tmp++;
if (tmp > 9)
tmp = 0;
m_freq = m_freq + (qint64)tmp *
m_DigitInfo[m_ActiveEditDigit].weight;
}
else
{
tmp =
(int)((m_freq / m_DigitInfo[m_ActiveEditDigit + 1].weight) %
10);
tmpl = m_freq + m_DigitInfo[m_ActiveEditDigit].incval;
if (tmp !=
(int)((tmpl / m_DigitInfo[m_ActiveEditDigit + 1].weight) %
10))
{
tmpl -= m_DigitInfo[m_ActiveEditDigit + 1].weight;
}
m_freq = tmpl;
}
setFrequency(m_freq);
}
}
}
// Increment the frequency by this digit active in edit mode
void freqCtrl::incFreq()
{
if (m_ActiveEditDigit >= 0)
{
if (m_DigitInfo[m_ActiveEditDigit].editmode)
{
m_freq += m_DigitInfo[m_ActiveEditDigit].incval;
if (m_ResetLowerDigits)
{
/* Set digits below the active one to 0 */
m_freq = m_freq - m_freq %
m_DigitInfo[m_ActiveEditDigit].weight;
}
setFrequency(m_freq);
m_LastEditDigit = m_ActiveEditDigit;
}
}
}
// Decrement the digit active in edit mode
void freqCtrl::decDigit()
{
/** FIXME: no longer used? */
int tmp;
qint64 tmpl;
if (m_ActiveEditDigit >= 0)
{
if (m_DigitInfo[m_ActiveEditDigit].editmode)
{
if (m_DigitInfo[m_ActiveEditDigit].weight ==
m_DigitInfo[m_ActiveEditDigit].incval)
{
// get the current digit value
tmp =
(int)((m_freq / m_DigitInfo[m_ActiveEditDigit].weight) %
10);
// set the current digit value to zero
m_freq -= tmp * m_DigitInfo[m_ActiveEditDigit].weight;
tmp--;
if (tmp < 0)
tmp = 9;
m_freq = m_freq + (qint64)tmp *
m_DigitInfo[m_ActiveEditDigit].weight;
}
else
{
tmp =
(int)((m_freq / m_DigitInfo[m_ActiveEditDigit + 1].weight) %
10);
tmpl = m_freq - m_DigitInfo[m_ActiveEditDigit].incval;
if (tmp !=
(int)((tmpl / m_DigitInfo[m_ActiveEditDigit + 1].weight) %
10))
{
tmpl += m_DigitInfo[m_ActiveEditDigit + 1].weight;
}
m_freq = tmpl;
}
setFrequency(m_freq);
}
}
}
// Decrement the frequency by this digit active in edit mode
void freqCtrl::decFreq()
{
if (m_ActiveEditDigit >= 0)
{
if (m_DigitInfo[m_ActiveEditDigit].editmode)
{
m_freq -= m_DigitInfo[m_ActiveEditDigit].incval;
if (m_ResetLowerDigits)
{
/* digits below the active one are reset to 0 */
m_freq = m_freq - m_freq %
m_DigitInfo[m_ActiveEditDigit].weight;
}
setFrequency(m_freq);
m_LastEditDigit = m_ActiveEditDigit;
}
}
}
// Clear the selected digit and the digits below (i.e. set them to 0)
void freqCtrl::clearFreq()
{
if (m_ActiveEditDigit >= 0)
{
if (m_DigitInfo[m_ActiveEditDigit].editmode)
{
m_freq -= m_DigitInfo[m_ActiveEditDigit].val *
m_DigitInfo[m_ActiveEditDigit].incval;
/* digits below the active one are reset to 0 */
m_freq -= m_freq % m_DigitInfo[m_ActiveEditDigit].weight;
setFrequency(m_freq);
m_LastEditDigit = m_ActiveEditDigit;
}
}
}
// Cursor move routines for arrow key editing
void freqCtrl::moveCursorLeft()
{
if ((m_ActiveEditDigit >= 0) && (m_ActiveEditDigit < m_NumDigits - 1))
{
setActiveDigit(m_ActiveEditDigit + 1);
}
}
void freqCtrl::moveCursorRight()
{
if (m_ActiveEditDigit > m_FirstEditableDigit)
{
setActiveDigit(m_ActiveEditDigit - 1);
}
}
void freqCtrl::cursorHome()
{
if (m_ActiveEditDigit >= 0)
{
setActiveDigit(m_NumDigits - 1);
}
}
void freqCtrl::cursorEnd()
{
if (m_ActiveEditDigit > 0)
{
setActiveDigit(m_FirstEditableDigit);
}
}
void freqCtrl::setFrequencyFocus()
{
// Select last digit or 5th digit (100s of kHz), whatever is bigger.
int position = std::max(int(log10(m_freq)), 5);
if (!hasFocus()) {
setFocus(Qt::ShortcutFocusReason);
}
setActiveDigit(position);
}
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