session_(session),
srd_session_(nullptr),
logic_mux_data_invalid_(false),
- current_segment_id_(0),
- current_segment_(nullptr)
+ current_segment_id_(0)
{
connect(&session_, SIGNAL(capture_state_changed(int)),
this, SLOT(on_capture_state_changed(int)));
stop_srd_session();
class_rows_.clear();
- currently_processed_segment_ = 0;
- current_segment_ = nullptr;
+ current_segment_id_ = 0;
segments_.clear();
logic_mux_data_.reset();
// Receive notifications when new sample data is available
connect_input_notifiers();
- const uint32_t segment_count = get_input_segment_count();
-
- if (segment_count == 0) {
+ if (get_input_segment_count() == 0) {
error_message_ = tr("No input data");
return;
}
- for (uint32_t i = 0; i < segment_count; i++)
- create_new_segment();
+ create_segments();
// Make sure the logic output data is complete and up-to-date
logic_mux_interrupt_ = false;
double result = 0;
// TODO For now, we simply return the first samplerate that we have
- try {
- const DecodeSegment *segment = &(segments_.at(0));
- result = segment->samplerate;
- } catch (out_of_range) {
- // Do nothing
- }
+ if (segments_.size() > 0)
+ result = segments_.front().samplerate;
return result;
}
pv::util::Timestamp result;
// TODO For now, we simply return the first start time that we have
- try {
- const DecodeSegment *segment = &(segments_.at(0));
- result = segment->start_time;
- } catch (out_of_range) {
- // Do nothing
- }
+ if (segments_.size() > 0)
+ result = segments_.front().start_time;
return result;
}
-uint32_t DecodeSignal::get_input_segment_count() const
-{
- uint64_t count = std::numeric_limits<uint64_t>::max();
- bool no_signals_assigned = true;
-
- for (const data::DecodeChannel &ch : channels_)
- if (ch.assigned_signal) {
- no_signals_assigned = false;
-
- const shared_ptr<Logic> logic_data = ch.assigned_signal->logic_data();
- if (!logic_data || logic_data->logic_segments().empty())
- return 0;
-
- // Find the min value of all segment counts
- if ((uint64_t)(logic_data->logic_segments().size()) < count)
- count = logic_data->logic_segments().size();
- }
-
- return (no_signals_assigned ? 0 : count);
-}
-
int64_t DecodeSignal::get_working_sample_count(uint32_t segment_id) const
{
// The working sample count is the highest sample number for
begin_decode();
}
+uint32_t DecodeSignal::get_input_segment_count() const
+{
+ uint64_t count = std::numeric_limits<uint64_t>::max();
+ bool no_signals_assigned = true;
+
+ for (const data::DecodeChannel &ch : channels_)
+ if (ch.assigned_signal) {
+ no_signals_assigned = false;
+
+ const shared_ptr<Logic> logic_data = ch.assigned_signal->logic_data();
+ if (!logic_data || logic_data->logic_segments().empty())
+ return 0;
+
+ // Find the min value of all segment counts
+ if ((uint64_t)(logic_data->logic_segments().size()) < count)
+ count = logic_data->logic_segments().size();
+ }
+
+ return (no_signals_assigned ? 0 : count);
+}
+
+uint32_t DecodeSignal::get_input_samplerate(uint32_t segment_id) const
+{
+ double samplerate = 0;
+
+ for (const data::DecodeChannel &ch : channels_)
+ if (ch.assigned_signal) {
+ const shared_ptr<Logic> logic_data = ch.assigned_signal->logic_data();
+ if (!logic_data || logic_data->logic_segments().empty())
+ continue;
+
+ try {
+ const shared_ptr<LogicSegment> segment = logic_data->logic_segments().at(segment_id);
+ samplerate = segment->samplerate();
+ } catch (out_of_range) {
+ // Do nothing
+ }
+ break;
+ }
+
+ return samplerate;
+}
+
void DecodeSignal::update_channel_list()
{
vector<data::DecodeChannel> prev_channels = channels_;
}
// Perform the muxing of signal data into the output data
- uint8_t* output = new uint8_t[(end - start) * logic_mux_segment_->unit_size()];
+ uint8_t* output = new uint8_t[(end - start) * output_segment->unit_size()];
unsigned int signal_count = signal_data.size();
for (int64_t sample_cnt = 0; sample_cnt < (end - start); sample_cnt++) {
int bitpos = 0;
uint8_t bytepos = 0;
- const int out_sample_pos = sample_cnt * logic_mux_segment_->unit_size();
- for (unsigned int i = 0; i < logic_mux_segment_->unit_size(); i++)
+ const int out_sample_pos = sample_cnt * output_segment->unit_size();
+ for (unsigned int i = 0; i < output_segment->unit_size(); i++)
output[out_sample_pos + i] = 0;
for (unsigned int i = 0; i < signal_count; i++) {
}
}
- logic_mux_segment_->append_payload(output, (end - start) * logic_mux_segment_->unit_size());
+ output_segment->append_payload(output, (end - start) * output_segment->unit_size());
delete[] output;
for (const uint8_t* data : signal_data)
{
uint32_t segment_id = 0;
- try {
- logic_mux_segment_ = logic_mux_data_->logic_segments().front();
- } catch (out_of_range) {
- qDebug() << "Muxer error for" << name() << ": no logic mux segments";
- return;
- }
+ assert(logic_mux_data_);
+
+ shared_ptr<LogicSegment> output_segment = logic_mux_data_->logic_segments().front();
+ assert(output_segment);
+
+ output_segment->set_samplerate(get_input_samplerate(0));
do {
const uint64_t input_sample_count = get_working_sample_count(segment_id);
- const uint64_t output_sample_count = logic_mux_segment_->get_sample_count();
+ const uint64_t output_sample_count = output_segment->get_sample_count();
const uint64_t samples_to_process =
(input_sample_count > output_sample_count) ?
// Process the samples if necessary...
if (samples_to_process > 0) {
- const uint64_t unit_size = logic_mux_segment_->unit_size();
+ const uint64_t unit_size = output_segment->unit_size();
const uint64_t chunk_sample_count = DecodeChunkLength / unit_size;
uint64_t processed_samples = 0;
segment_id++;
try {
- logic_mux_segment_ = logic_mux_data_->logic_segments().at(segment_id);
+ output_segment = logic_mux_data_->logic_segments().at(segment_id);
} catch (out_of_range) {
qDebug() << "Muxer error for" << name() << ": no logic mux segment" \
<< segment_id << "in logic_mux_proc(), mux segments size is" \
return;
}
+ output_segment->set_samplerate(get_input_samplerate(segment_id));
+
} else {
// All segments have been processed
logic_mux_data_invalid_ = false;
data::DecodeChannel *any_channel;
shared_ptr<Logic> logic_data;
- assert(current_segment_);
-
do {
any_channel = &(*find_if(channels_.begin(), channels_.end(),
[](data::DecodeChannel ch) { return ch.assigned_signal; }));
shared_ptr<LogicSegment> first_segment =
any_channel->assigned_signal->logic_data()->logic_segments().front();
- current_segment_->start_time = first_segment->start_time();
- current_segment_->samplerate = first_segment->samplerate();
- if (current_segment_->samplerate > 0)
+ // We only need valid metadata in the first decode segment
+ // so that start_srd_session() can use it
+ segments_.at(current_segment_id_).start_time = first_segment->start_time();
+ segments_.at(current_segment_id_).samplerate = first_segment->samplerate();
+
+ if (segments_.at(current_segment_id_).samplerate > 0)
samplerate_valid = true;
}
}
void DecodeSignal::decode_data(
- const int64_t abs_start_samplenum, const int64_t sample_count)
+ const int64_t abs_start_samplenum, const int64_t sample_count,
+ const shared_ptr<LogicSegment> input_segment)
{
- assert(current_segment_);
-
- const int64_t unit_size = logic_mux_segment_->unit_size();
+ const int64_t unit_size = input_segment->unit_size();
const int64_t chunk_sample_count = DecodeChunkLength / unit_size;
for (int64_t i = abs_start_samplenum;
int64_t data_size = (chunk_end - i) * unit_size;
uint8_t* chunk = new uint8_t[data_size];
- logic_mux_segment_->get_samples(i, chunk_end, chunk);
+ input_segment->get_samples(i, chunk_end, chunk);
if (srd_session_send(srd_session_, i, chunk_end, chunk,
data_size, unit_size) != SRD_OK) {
{
lock_guard<mutex> lock(output_mutex_);
- current_segment_->samples_decoded = chunk_end;
+ segments_.at(current_segment_id_).samples_decoded = chunk_end;
}
// Notify the frontend that we processed some data and
start_srd_session();
+ current_segment_id_ = 0;
+ shared_ptr<LogicSegment> input_segment = logic_mux_data_->logic_segments().front();
+
+ assert(input_segment);
+ segments_.at(current_segment_id_).samplerate = input_segment->samplerate();
+
uint64_t sample_count;
uint64_t abs_start_samplenum = 0;
do {
// Keep processing new samples until we exhaust the input data
do {
lock_guard<mutex> input_lock(input_mutex_);
- sample_count = logic_mux_segment_->get_sample_count() - abs_start_samplenum;
+ sample_count = input_segment->get_sample_count() - abs_start_samplenum;
if (sample_count > 0) {
- decode_data(abs_start_samplenum, sample_count);
+ decode_data(abs_start_samplenum, sample_count, input_segment);
abs_start_samplenum += sample_count;
}
} while (error_message_.isEmpty() && (sample_count > 0) && !decode_interrupt_);
- if (error_message_.isEmpty() && !decode_interrupt_) {
- if (sample_count == 0)
+ if (error_message_.isEmpty() && !decode_interrupt_ && sample_count == 0) {
+ if (current_segment_id_ < logic_mux_data_->logic_segments().size() - 1) {
+ // Process next segment
+ current_segment_id_++;
+
+ try {
+ input_segment = logic_mux_data_->logic_segments().at(current_segment_id_);
+ } catch (out_of_range) {
+ qDebug() << "Decode error for" << name() << ": no logic mux segment" \
+ << current_segment_id_ << "in decode_proc(), mux segments size is" \
+ << logic_mux_data_->logic_segments().size();
+ return;
+ }
+ abs_start_samplenum = 0;
+
+ segments_.at(current_segment_id_).samplerate = input_segment->samplerate();
+
+ // Reset decoder state
+ stop_srd_session();
+ start_srd_session();
+ } else {
+ // All segments have been processed
decode_finished();
- // Wait for new input data or an interrupt was requested
- unique_lock<mutex> input_wait_lock(input_mutex_);
- decode_input_cond_.wait(input_wait_lock);
+ // Wait for new input data or an interrupt was requested
+ unique_lock<mutex> input_wait_lock(input_mutex_);
+ decode_input_cond_.wait(input_wait_lock);
+ }
}
} while (error_message_.isEmpty() && !decode_interrupt_);
}
if (srd_session_)
stop_srd_session();
- assert(current_segment_);
-
// Create the session
srd_session_new(&srd_session_);
assert(srd_session_);
// Start the session
srd_session_metadata_set(srd_session_, SRD_CONF_SAMPLERATE,
- g_variant_new_uint64(current_segment_->samplerate));
+ g_variant_new_uint64(segments_.at(current_segment_id_).samplerate));
srd_pd_output_callback_add(srd_session_, SRD_OUTPUT_ANN,
DecodeSignal::annotation_callback, this);
}
}
-void DecodeSignal::create_new_segment()
+void DecodeSignal::create_segments()
{
- // Create logic mux segment if we're recreating the muxed data
- if (logic_mux_data_invalid_) {
- const double samplerate =
- (current_segment_) ? current_segment_->samplerate : 0;
-
- logic_mux_segment_ = make_shared<LogicSegment>(*logic_mux_data_,
- logic_mux_unit_size_, samplerate);
- logic_mux_data_->push_segment(logic_mux_segment_);
+ // Make sure we have as many segments as we need
+ const uint32_t input_segment_count = get_input_segment_count();
+
+ for (uint32_t i = logic_mux_data_->logic_segments().size(); i < input_segment_count; i++) {
+ shared_ptr<LogicSegment> segment =
+ make_shared<LogicSegment>(*logic_mux_data_, logic_mux_unit_size_, 0);
+ logic_mux_data_->push_segment(segment);
}
- // Create annotation segment
- segments_.emplace_back(DecodeSegment());
- current_segment_ = &(segments_.back());
+ for (uint32_t i = segments_.size(); i < input_segment_count; i++) {
+ // Create annotation segment
+ segments_.emplace_back(DecodeSegment());
- // TODO Currently we assume there's only one sample rate
- current_segment_->samplerate = segments_.front().samplerate;
+ // Add annotation classes
+ for (const shared_ptr<decode::Decoder> &dec : stack_) {
+ assert(dec);
+ const srd_decoder *const decc = dec->decoder();
+ assert(dec->decoder());
- // Add annotation classes
- for (const shared_ptr<decode::Decoder> &dec : stack_) {
- assert(dec);
- const srd_decoder *const decc = dec->decoder();
- assert(dec->decoder());
+ // Add a row for the decoder if it doesn't have a row list
+ if (!decc->annotation_rows)
+ (segments_.back().annotation_rows)[Row(decc)] =
+ decode::RowData();
- // Add a row for the decoder if it doesn't have a row list
- if (!decc->annotation_rows)
- (current_segment_->annotation_rows)[Row(decc)] = decode::RowData();
+ // Add the decoder rows
+ for (const GSList *l = decc->annotation_rows; l; l = l->next) {
+ const srd_decoder_annotation_row *const ann_row =
+ (srd_decoder_annotation_row *)l->data;
+ assert(ann_row);
- // Add the decoder rows
- for (const GSList *l = decc->annotation_rows; l; l = l->next) {
- const srd_decoder_annotation_row *const ann_row =
- (srd_decoder_annotation_row *)l->data;
- assert(ann_row);
-
- const Row row(decc, ann_row);
+ const Row row(decc, ann_row);
- // Add a new empty row data object
- (current_segment_->annotation_rows)[row] = decode::RowData();
+ // Add a new empty row data object
+ (segments_.back().annotation_rows)[row] =
+ decode::RowData();
+ }
}
}
}
assert(pdata->pdo->di);
const srd_decoder *const decc = pdata->pdo->di->decoder;
assert(decc);
- assert(ds->current_segment_);
const srd_proto_data_annotation *const pda =
(const srd_proto_data_annotation*)pdata->data;
assert(pda);
- auto row_iter = ds->current_segment_->annotation_rows.end();
+ auto row_iter = ds->segments_.at(ds->current_segment_id_).annotation_rows.end();
// Try looking up the sub-row of this class
const auto format = pda->ann_class;
const auto r = ds->class_rows_.find(make_pair(decc, format));
if (r != ds->class_rows_.end())
- row_iter = ds->current_segment_->annotation_rows.find((*r).second);
+ row_iter = ds->segments_.at(ds->current_segment_id_).annotation_rows.find((*r).second);
else {
// Failing that, use the decoder as a key
- row_iter = ds->current_segment_->annotation_rows.find(Row(decc));
+ row_iter = ds->segments_.at(ds->current_segment_id_).annotation_rows.find(Row(decc));
}
- if (row_iter == ds->current_segment_->annotation_rows.end()) {
+ if (row_iter == ds->segments_.at(ds->current_segment_id_).annotation_rows.end()) {
qDebug() << "Unexpected annotation: decoder = " << decc <<
", format = " << format;
assert(false);
void DecodeSignal::on_data_received()
{
+ create_segments();
+
if (!logic_mux_thread_.joinable())
begin_decode();
else
projects / pulseview.git / commitdiff