enable_all_channels_(tr("All"), this),
disable_all_channels_(tr("All"), this),
enable_all_logic_channels_(tr("Logic"), this),
+ disable_all_logic_channels_(tr("Logic"), this),
enable_all_analog_channels_(tr("Analog"), this),
+ disable_all_analog_channels_(tr("Analog"), this),
enable_all_named_channels_(tr("Named"), this),
+ disable_all_unnamed_channels_(tr("Unnamed"), this),
enable_all_changing_channels_(tr("Changing"), this),
+ disable_all_non_changing_channels_(tr("Non-changing"), this),
check_box_mapper_(this)
{
// Create the layout
map<shared_ptr<Channel>, shared_ptr<SignalBase> > signal_map;
unordered_set< shared_ptr<SignalBase> > sigs;
- for (const shared_ptr<data::SignalBase> b : session_.signalbases())
+ for (const shared_ptr<data::SignalBase>& b : session_.signalbases())
sigs.insert(b);
for (const shared_ptr<SignalBase> &sig : sigs)
signal_map[sig->channel()] = sig;
// Populate channel groups
- for (auto entry : device->channel_groups()) {
+ for (auto& entry : device->channel_groups()) {
const shared_ptr<ChannelGroup> group = entry.second;
// Make a set of signals and remove these signals from the signal map
vector< shared_ptr<SignalBase> > group_sigs;
- for (auto channel : group->channels()) {
+ for (auto& channel : group->channels()) {
const auto iter = signal_map.find(channel);
if (iter == signal_map.end())
// Make a vector of the remaining channels
vector< shared_ptr<SignalBase> > global_analog_sigs, global_logic_sigs;
- for (auto channel : device->channels()) {
+ for (auto& channel : device->channels()) {
const map<shared_ptr<Channel>, shared_ptr<SignalBase> >::
const_iterator iter = signal_map.find(channel);
connect(&enable_all_channels_, SIGNAL(clicked()), this, SLOT(enable_all_channels()));
connect(&disable_all_channels_, SIGNAL(clicked()), this, SLOT(disable_all_channels()));
connect(&enable_all_logic_channels_, SIGNAL(clicked()), this, SLOT(enable_all_logic_channels()));
+ connect(&disable_all_logic_channels_, SIGNAL(clicked()), this, SLOT(disable_all_logic_channels()));
connect(&enable_all_analog_channels_, SIGNAL(clicked()), this, SLOT(enable_all_analog_channels()));
+ connect(&disable_all_analog_channels_, SIGNAL(clicked()), this, SLOT(disable_all_analog_channels()));
connect(&enable_all_named_channels_, SIGNAL(clicked()), this, SLOT(enable_all_named_channels()));
+ connect(&disable_all_unnamed_channels_, SIGNAL(clicked()), this, SLOT(disable_all_unnamed_channels()));
connect(&enable_all_changing_channels_, SIGNAL(clicked()),
this, SLOT(enable_all_changing_channels()));
+ connect(&disable_all_non_changing_channels_, SIGNAL(clicked()),
+ this, SLOT(disable_all_non_changing_channels()));
QLabel *label1 = new QLabel(tr("Disable: "));
- buttons_bar_.addWidget(label1);
- buttons_bar_.addWidget(&disable_all_channels_);
+ filter_buttons_bar_.addWidget(label1, 0, 0);
+ filter_buttons_bar_.addWidget(&disable_all_channels_, 0, 1);
+ filter_buttons_bar_.addWidget(&disable_all_logic_channels_, 0, 2);
+ filter_buttons_bar_.addWidget(&disable_all_analog_channels_, 0, 3);
+ filter_buttons_bar_.addWidget(&disable_all_unnamed_channels_, 0, 4);
+ filter_buttons_bar_.addWidget(&disable_all_non_changing_channels_, 0, 5);
+
QLabel *label2 = new QLabel(tr("Enable: "));
- buttons_bar_.addWidget(label2);
- buttons_bar_.addWidget(&enable_all_channels_);
- buttons_bar_.addWidget(&enable_all_logic_channels_);
- buttons_bar_.addWidget(&enable_all_analog_channels_);
- buttons_bar_.addWidget(&enable_all_named_channels_);
- buttons_bar_.addWidget(&enable_all_changing_channels_);
- buttons_bar_.addStretch();
+ filter_buttons_bar_.addWidget(label2, 1, 0);
+ filter_buttons_bar_.addWidget(&enable_all_channels_, 1, 1);
+ filter_buttons_bar_.addWidget(&enable_all_logic_channels_, 1, 2);
+ filter_buttons_bar_.addWidget(&enable_all_analog_channels_, 1, 3);
+ filter_buttons_bar_.addWidget(&enable_all_named_channels_, 1, 4);
+ filter_buttons_bar_.addWidget(&enable_all_changing_channels_, 1, 5);
- layout_.addRow(&buttons_bar_);
+ layout_.addItem(new QSpacerItem(0, 15, QSizePolicy::Expanding, QSizePolicy::Expanding));
+ layout_.addRow(&filter_buttons_bar_);
// Connect the check-box signal mapper
connect(&check_box_mapper_, SIGNAL(mapped(QWidget*)),
{
updating_channels_ = true;
- for (auto entry : check_box_signal_map_) {
+ for (auto& entry : check_box_signal_map_) {
QCheckBox *cb = entry.first;
const shared_ptr<SignalBase> sig = entry.second;
assert(sig);
{
updating_channels_ = true;
- for (auto entry : check_box_signal_map_) {
+ for (auto& entry : check_box_signal_map_) {
QCheckBox *cb = entry.first;
const shared_ptr<SignalBase> sig = entry.second;
assert(sig);
- const bool state = cond_func(sig);
- if (state) {
- sig->set_enabled(state);
- cb->setChecked(state);
+ if (cond_func(sig)) {
+ sig->set_enabled(true);
+ cb->setChecked(true);
+ }
+ }
+
+ updating_channels_ = false;
+}
+
+void Channels::disable_channels_conditionally(
+ function<bool (const shared_ptr<data::SignalBase>)> cond_func)
+{
+ updating_channels_ = true;
+
+ for (auto& entry : check_box_signal_map_) {
+ QCheckBox *cb = entry.first;
+ const shared_ptr<SignalBase> sig = entry.second;
+ assert(sig);
+
+ if (cond_func(sig)) {
+ sig->set_enabled(false);
+ cb->setChecked(false);
}
}
assert(device);
// Update group labels
- for (auto entry : device->channel_groups()) {
+ for (auto& entry : device->channel_groups()) {
const shared_ptr<ChannelGroup> group = entry.second;
try {
updating_channels_ = true;
- for (auto entry : check_box_signal_map_) {
+ for (auto& entry : check_box_signal_map_) {
QCheckBox *cb = entry.first;
const shared_ptr<SignalBase> sig = entry.second;
assert(sig);
{ return signal->type() == SignalBase::LogicChannel; });
}
+void Channels::disable_all_logic_channels()
+{
+ disable_channels_conditionally([](const shared_ptr<SignalBase> signal)
+ { return signal->type() == SignalBase::LogicChannel; });
+}
+
void Channels::enable_all_analog_channels()
{
enable_channels_conditionally([](const shared_ptr<SignalBase> signal)
{ return signal->type() == SignalBase::AnalogChannel; });
}
+void Channels::disable_all_analog_channels()
+{
+ disable_channels_conditionally([](const shared_ptr<SignalBase> signal)
+ { return signal->type() == SignalBase::AnalogChannel; });
+}
+
void Channels::enable_all_named_channels()
{
enable_channels_conditionally([](const shared_ptr<SignalBase> signal)
{ return signal->name() != signal->internal_name(); });
}
+void Channels::disable_all_unnamed_channels()
+{
+ disable_channels_conditionally([](const shared_ptr<SignalBase> signal)
+ { return signal->name() == signal->internal_name(); });
+}
+
void Channels::enable_all_changing_channels()
{
enable_channels_conditionally([](const shared_ptr<SignalBase> signal)
});
}
+void Channels::disable_all_non_changing_channels()
+{
+ disable_channels_conditionally([](const shared_ptr<SignalBase> signal)
+ {
+ // Always disable channels without sample data
+ if (!signal->has_samples())
+ return true;
+
+ // Non-logic channels are considered to always have a signal
+ if (signal->type() != SignalBase::LogicChannel)
+ return false;
+
+ const shared_ptr<Logic> logic = signal->logic_data();
+ assert(logic);
+
+ // If any of the segments has edges, leave this channel enabled
+ for (shared_ptr<LogicSegment> segment : logic->logic_segments()) {
+ vector<LogicSegment::EdgePair> edges;
+
+ segment->get_subsampled_edges(edges,
+ 0, segment->get_sample_count() - 1,
+ LogicSegment::MipMapScaleFactor,
+ signal->index());
+
+ if (edges.size() > 2)
+ return false;
+ }
+
+ // No edges detected in any of the segments
+ return true;
+ });
+}
+
} // namespace popups
} // namespace pv