WSJT-X/WSPRBandHopping.cpp
Bill Somerville 5e3ec0e891 Move pseudo RNG seeding to start of application
Also switched  to qrand() in place  of rand() where possible  as it is
thread safe.

git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@5716 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
2015-07-12 10:28:28 +00:00

451 lines
15 KiB
C++

#include "WSPRBandHopping.hpp"
#include <QPointer>
#include <QSettings>
#include <QBitArray>
#include <QList>
#include <QSet>
#include <QtWidgets>
#include "SettingsGroup.hpp"
#include "Configuration.hpp"
#include "Bands.hpp"
#include "FrequencyList.hpp"
#include "WsprTxScheduler.h"
#include "pimpl_impl.hpp"
#include "moc_WSPRBandHopping.cpp"
extern "C"
{
#ifndef CMAKE_BUILD
#define FC_grayline grayline_
#else
#include "FC.h"
void FC_grayline (int const * year, int const * month, int const * nday, float const * uth, char const * my_grid
, int const * nduration, int * isun
, int my_grid_len);
#endif
};
namespace
{
char const * const title = "WSPR Band Hopping";
char const * const periods[] = {"Sunrise grayline", "Day", "Sunset grayline", "Night", "Tune", "Rx only"};
size_t constexpr num_periods {sizeof (periods) / sizeof (periods[0])};
// These 10 bands are globally coordinated
QList<QString> const coordinated_bands = {"160m", "80m", "60m", "40m", "30m", "20m", "17m", "15m", "12m", "10m"};
}
//
// Dialog - maintenance of band hopping options
//
class Dialog
: public QDialog
{
public:
using BandList = QList<QString>;
Dialog (QSettings *, Configuration const *, BandList const * WSPT_bands, QBitArray * bands
, int * gray_line_duration, QWidget * parent = nullptr);
~Dialog ();
Q_SLOT void frequencies_changed ();
void resize_to_maximum ();
private:
void closeEvent (QCloseEvent *) override;
void save_window_state ();
QSettings * settings_;
Configuration const * configuration_;
BandList const * WSPR_bands_;
QBitArray * bands_;
int * gray_line_duration_;
QPointer<QTableWidget> bands_table_;
QBrush coord_background_brush_;
QPointer<QSpinBox> gray_line_width_spin_box_;
static int const band_index_role {Qt::UserRole};
};
Dialog::Dialog (QSettings * settings, Configuration const * configuration, BandList const * WSPR_bands
, QBitArray * bands, int * gray_line_duration, QWidget * parent)
: QDialog {parent, Qt::Window | Qt::WindowTitleHint | Qt::WindowCloseButtonHint | Qt::WindowMinimizeButtonHint}
, settings_ {settings}
, configuration_ {configuration}
, WSPR_bands_ {WSPR_bands}
, bands_ {bands}
, gray_line_duration_ {gray_line_duration}
, bands_table_ {new QTableWidget {this}}
, coord_background_brush_ {Qt::yellow}
, gray_line_width_spin_box_ {new QSpinBox {this}}
{
setWindowTitle (windowTitle () + ' ' + tr (title));
{
SettingsGroup g {settings_, title};
restoreGeometry (settings_->value ("geometry", saveGeometry ()).toByteArray ());
}
QVBoxLayout * main_layout {new QVBoxLayout};
bands_table_->setRowCount (num_periods);
bands_table_->setVerticalScrollBarPolicy (Qt::ScrollBarAlwaysOff);
bands_table_->setHorizontalScrollBarPolicy (Qt::ScrollBarAlwaysOff);
bands_table_->setSizePolicy (QSizePolicy::Expanding, QSizePolicy::Expanding);
frequencies_changed ();
main_layout->addWidget (bands_table_);
// recalculate table when frequencies change
connect (configuration_->frequencies (), &QAbstractItemModel::layoutChanged
, this, &Dialog::frequencies_changed);
// handle changes by updating the underlying flags
connect (bands_table_.data (), &QTableWidget::itemChanged, [this] (QTableWidgetItem * item) {
auto band_number = item->data (band_index_role).toInt ();
bands_[item->row ()].setBit (band_number, Qt::Checked == item->checkState ());
});
// set up the gray line duration spin box
gray_line_width_spin_box_->setRange (1, 60 * 2);
gray_line_width_spin_box_->setSuffix ("min");
gray_line_width_spin_box_->setValue (*gray_line_duration_);
QFormLayout * form_layout = new QFormLayout;
form_layout->addRow (tr ("Gray time:"), gray_line_width_spin_box_);
connect (gray_line_width_spin_box_.data ()
, static_cast<void (QSpinBox::*) (int)> (&QSpinBox::valueChanged)
, [this] (int new_value) {*gray_line_duration_ = new_value;});
QHBoxLayout * bottom_layout = new QHBoxLayout;
bottom_layout->addStretch ();
bottom_layout->addLayout (form_layout);
main_layout->addLayout (bottom_layout);
setLayout (main_layout);
}
Dialog::~Dialog ()
{
// do this here too because ESC or parent shutdown closing this
// window doesn't queue a close event
save_window_state ();
}
void Dialog::closeEvent (QCloseEvent * e)
{
save_window_state ();
QDialog::closeEvent (e);
}
void Dialog::save_window_state ()
{
SettingsGroup g {settings_, title};
settings_->setValue ("geometry", saveGeometry ());
}
void Dialog::frequencies_changed ()
{
bands_table_->setColumnCount (WSPR_bands_->size ());
// set up and load the table of check boxes
for (auto row = 0u; row < num_periods; ++row)
{
auto vertical_header = new QTableWidgetItem {periods[row]};
vertical_header->setTextAlignment (Qt::AlignRight | Qt::AlignVCenter);
bands_table_->setVerticalHeaderItem (row, vertical_header);
int column {0};
int band_number {0};
for (auto const& band : *configuration_->bands ())
{
if (WSPR_bands_->contains (band))
{
if (0 == row)
{
auto horizontal_header = new QTableWidgetItem {band};
bands_table_->setHorizontalHeaderItem (column, horizontal_header);
}
auto item = new QTableWidgetItem;
item->setFlags (Qt::ItemIsUserCheckable | Qt::ItemIsEnabled);
item->setCheckState (bands_[row].testBit (band_number) ? Qt::Checked : Qt::Unchecked);
item->setData (band_index_role, band_number);
if (coordinated_bands.contains (band))
{
item->setBackground (coord_background_brush_);
}
bands_table_->setItem (row, column, item);
++column;
}
++band_number;
}
}
bands_table_->resizeColumnsToContents ();
auto is_visible = isVisible ();
show ();
resize_to_maximum ();
adjustSize (); // fix the size
if (!is_visible)
{
hide ();
}
}
// to get the dialog window exactly the right size to contain the
// widgets without needing scroll bars we need to measure the size of
// the table widget and set its minimum size to the measured size
void Dialog::resize_to_maximum ()
{
bands_table_->setMinimumSize ({
bands_table_->horizontalHeader ()->length ()
+ bands_table_->verticalHeader ()->width ()
+ 2 * bands_table_->frameWidth ()
, bands_table_->verticalHeader ()->length ()
+ bands_table_->horizontalHeader ()->height ()
+ 2 * bands_table_->frameWidth ()
});
bands_table_->setMaximumSize (bands_table_->minimumSize ());
}
class WSPRBandHopping::impl
{
public:
using BandList = Dialog::BandList;
impl (QSettings * settings, Configuration const * configuration, QWidget * parent_widget)
: settings_ {settings}
, configuration_ {configuration}
, tx_percent_ {0}
, parent_widget_ {parent_widget}
{
auto num_bands = configuration_->bands ()->rowCount ();
for (auto& flags : bands_)
{
flags.resize (num_bands);
}
}
QSettings * settings_;
Configuration const * configuration_;
int tx_percent_;
BandList WSPR_bands_;
BandList rx_permutation_;
BandList tx_permutation_;
QWidget * parent_widget_;
// 5 x 10 bit flags representing each hopping band in each period
// and tune
QBitArray bands_[num_periods];
int gray_line_duration_;
QPointer<Dialog> dialog_;
};
WSPRBandHopping::WSPRBandHopping (QSettings * settings, Configuration const * configuration, QWidget * parent_widget)
: m_ {settings, configuration, parent_widget}
{
// detect changes to the working frequencies model
m_->WSPR_bands_ = m_->configuration_->frequencies ()->all_bands (Modes::WSPR).toList ();
connect (m_->configuration_->frequencies (), &QAbstractItemModel::layoutChanged
, [this] () {
m_->WSPR_bands_ = m_->configuration_->frequencies ()->all_bands (Modes::WSPR).toList ();
});
// load settings
SettingsGroup g {m_->settings_, title};
size_t size = m_->settings_->beginReadArray ("phases");
for (auto i = 0u; i < size; ++i)
{
if (i < num_periods)
{
m_->settings_->setArrayIndex (i);
m_->bands_[i] = m_->settings_->value ("bands").toBitArray ();
}
}
m_->settings_->endArray ();
m_->gray_line_duration_ = m_->settings_->value ("GrayLineDuration", 60).toUInt ();
}
WSPRBandHopping::~WSPRBandHopping ()
{
// save settings
SettingsGroup g {m_->settings_, title};
m_->settings_->beginWriteArray ("phases");
for (auto i = 0u; i < num_periods; ++i)
{
m_->settings_->setArrayIndex (i);
m_->settings_->setValue ("bands", m_->bands_[i]);
}
m_->settings_->endArray ();
m_->settings_->setValue ("GrayLineDuration", m_->gray_line_duration_);
}
// pop up the maintenance dialog window
void WSPRBandHopping::show_dialog (bool /* checked */)
{
if (!m_->dialog_)
{
m_->dialog_ = new Dialog {m_->settings_, m_->configuration_, &m_->WSPR_bands_, m_->bands_
, &m_->gray_line_duration_, m_->parent_widget_};
}
m_->dialog_->show ();
m_->dialog_->raise ();
m_->dialog_->activateWindow ();
}
int WSPRBandHopping::tx_percent () const
{
return m_->tx_percent_;
}
void WSPRBandHopping::set_tx_percent (int new_value)
{
m_->tx_percent_ = new_value;
}
// determine the parameters of the hop, if any
auto WSPRBandHopping::next_hop (bool tx_enabled) -> Hop
{
auto const& now = QDateTime::currentDateTimeUtc ();
auto const& date = now.date ();
auto year = date.year ();
auto month = date.month ();
auto day = date.day ();
auto const& time = now.time ();
float uth = time.hour () + time.minute () / 60.
+ (time.second () + .001 * time.msec ()) / 3600.;
auto my_grid = m_->configuration_->my_grid ();
int period_index;
int band_index;
int tx_next;
my_grid = (my_grid + " ").left (6); // hopping doesn't like
// short grids
// look up the period for this time
FC_grayline (&year, &month, &day, &uth, my_grid.toLatin1 ().constData ()
, &m_->gray_line_duration_, &period_index
, my_grid.size ());
band_index = next_hopping_band();
tx_next = next_is_tx () && tx_enabled;
int frequencies_index {-1};
auto const& frequencies = m_->configuration_->frequencies ();
auto const& bands = m_->configuration_->bands ();
auto band_name = bands->data (bands->index (band_index + 3, 0)).toString ();
if (m_->bands_[period_index].testBit (band_index + 3) // +3 for
// coordinated bands
&& m_->WSPR_bands_.contains (band_name))
{
// here we have a band that has been enabled in the hopping
// matrix so check it it has a configured working frequency
frequencies_index = frequencies->best_working_frequency (band_name);
}
// if we do not have a configured working frequency on the selected
// coordinated hopping band we next pick from a random permutation
// of the other enabled bands in the hopping bands matrix
if (frequencies_index < 0)
{
// build sets of available rx and tx bands
auto target_rx_bands = m_->WSPR_bands_.toSet ();
auto target_tx_bands = target_rx_bands;
for (auto i = 0; i < m_->bands_[period_index].size (); ++i)
{
auto const& band = bands->data (bands->index (i, 0)).toString ();
// remove bands that are not enabled for hopping in this phase
if (!m_->bands_[period_index].testBit (i))
{
target_rx_bands.remove (band);
target_tx_bands.remove (band);
}
// remove rx only bands from transmit list and vice versa
if (m_->bands_[5].testBit (i))
{
target_tx_bands.remove (band);
}
else
{
target_rx_bands.remove (band);
}
}
// if we have some bands to permute
if (target_rx_bands.size () + target_tx_bands.size ())
{
if (!(m_->rx_permutation_.size () + m_->tx_permutation_.size ()) // all used up
// or rx list contains a band no longer scheduled
|| !target_rx_bands.contains (m_->rx_permutation_.toSet ())
// or tx list contains a band no longer scheduled for tx
|| !target_tx_bands.contains (m_->tx_permutation_.toSet ()))
{
// build new random permutations
m_->rx_permutation_ = target_rx_bands.toList ();
std::random_shuffle (std::begin (m_->rx_permutation_), std::end (m_->rx_permutation_));
m_->tx_permutation_ = target_tx_bands.toList ();
std::random_shuffle (std::begin (m_->tx_permutation_), std::end (m_->tx_permutation_));
// qDebug () << "New random Rx permutation:" << m_->rx_permutation_
// << "random Tx permutation:" << m_->tx_permutation_;
}
if ((tx_next && m_->tx_permutation_.size ()) || !m_->rx_permutation_.size ())
{
Q_ASSERT (m_->tx_permutation_.size ());
// use one from the current random tx permutation
band_name = m_->tx_permutation_.takeFirst ();
}
else
{
Q_ASSERT (m_->rx_permutation_.size ());
// use one from the current random rx permutation
band_name = m_->rx_permutation_.takeFirst ();
}
// find the first WSPR working frequency for the chosen band
frequencies_index = frequencies->best_working_frequency (band_name);
if (frequencies_index >= 0) // should be a redundant check,
// but to be safe
{
// we can use the random choice
// qDebug () << "random:" << frequencies->data (frequencies->index (frequencies_index, FrequencyList::frequency_column)).toString ();
band_index = bands->find (band_name);
if (band_index < 0) // this shouldn't happen
{
Q_ASSERT (band_index >= 0);
frequencies_index = -1;
}
}
}
}
else
{
band_index += 3;
// qDebug () << "scheduled:" << frequencies->data (frequencies->index (frequencies_index, FrequencyList::frequency_column)).toString ();
// remove from random permutations to stop the coordinated bands
// getting too high a weighting - not perfect but surely helps
m_->rx_permutation_.removeOne (band_name);
m_->tx_permutation_.removeOne (band_name);
}
return {
periods[period_index]
, frequencies_index
, frequencies_index >= 0 // new band
&& tx_enabled // transmit is allowed
&& !tx_next // not going to Tx anyway
&& m_->bands_[4].testBit (band_index) // tune up required
&& !m_->bands_[5].testBit (band_index) // not an Rx only band
, frequencies_index >= 0 // new band
&& tx_next // Tx scheduled
&& !m_->bands_[5].testBit (band_index) // not an Rx only band
};
}
bool WSPRBandHopping::next_is_tx ()
{
if (100 == m_->tx_percent_)
{
return true;
}
else
{
// consult scheduler to determine if next period should be a tx interval
return next_tx_state(m_->tx_percent_);
}
}