#include <libsigrokdecode/libsigrokdecode.h>
+#include <boost/bind.hpp>
#include <boost/foreach.hpp>
#include <boost/thread/thread.hpp>
#include <pv/data/logic.h>
#include <pv/data/logicsnapshot.h>
#include <pv/data/decode/decoder.h>
+#include <pv/data/decode/annotation.h>
#include <pv/view/logicsignal.h>
-#include <pv/view/decode/annotation.h>
-using namespace boost;
-using namespace std;
+using boost::lock_guard;
+using boost::mutex;
+using boost::shared_ptr;
+using std::deque;
+using std::min;
+using std::list;
+using std::vector;
namespace pv {
namespace data {
return _samples_decoded;
}
-const vector< shared_ptr<view::decode::Annotation> >
- DecoderStack::annotations() const
+void DecoderStack::get_annotation_subset(
+ std::vector<pv::data::decode::Annotation> &dest,
+ uint64_t start_sample, uint64_t end_sample) const
{
lock_guard<mutex> lock(_mutex);
- return _annotations;
+
+ const vector<size_t>::const_iterator start_iter =
+ lower_bound(_ann_end_index.begin(),
+ _ann_end_index.end(), start_sample,
+ bind(&DecoderStack::index_entry_end_sample_lt,
+ this, _1, _2));
+
+ const vector<size_t>::const_iterator end_iter =
+ upper_bound(_ann_start_index.begin(),
+ _ann_start_index.end(), end_sample,
+ bind(&DecoderStack::index_entry_start_sample_gt,
+ this, _1, _2));
+
+ for (vector<size_t>::const_iterator i = start_iter;
+ i != _ann_end_index.end() && *i != *end_iter; i++)
+ dest.push_back(_annotations[*i]);
}
QString DecoderStack::error_message()
_samples_decoded = 0;
- _annotations.clear();
+ clear();
// We get the logic data of the first probe in the list.
// This works because we are currently assuming all
// Get the samplerate and start time
_start_time = data->get_start_time();
- _samplerate = data->get_samplerate();
+ _samplerate = data->samplerate();
if (_samplerate == 0.0)
_samplerate = 1.0;
void DecoderStack::clear()
{
+ _annotations.clear();
+ _ann_start_index.clear();
+ _ann_end_index.clear();
+}
+
+uint64_t DecoderStack::get_max_sample_count() const
+{
+ if (_annotations.empty())
+ return 0;
+ return _annotations.back().end_sample();
}
void DecoderStack::decode_proc(shared_ptr<data::Logic> data)
const shared_ptr<pv::data::LogicSnapshot> &snapshot =
snapshots.front();
- const int64_t sample_count = snapshot->get_sample_count() - 1;
+ const int64_t sample_count = snapshot->get_sample_count();
+ const unsigned int chunk_sample_count =
+ DecodeChunkLength / snapshot->unit_size();
+
+ // Clear error message upon every new session run
+ _error_message = QString();
// Create the session
srd_session_new(&session);
assert(session);
-
// Create the decoders
BOOST_FOREACH(const shared_ptr<decode::Decoder> &dec, _stack)
{
if (!di)
{
- _error_message = tr("Failed to initialise decoder");
+ _error_message = tr("Failed to create decoder instance");
srd_session_destroy(session);
return;
}
srd_session_start(session);
for (int64_t i = 0;
- !this_thread::interruption_requested() && i < sample_count;
- i += DecodeChunkLength)
+ !boost::this_thread::interruption_requested() &&
+ i < sample_count;
+ i += chunk_sample_count)
{
lock_guard<mutex> decode_lock(_global_decode_mutex);
const int64_t chunk_end = min(
- i + DecodeChunkLength, sample_count);
+ i + chunk_sample_count, sample_count);
snapshot->get_samples(chunk, i, chunk_end);
if (srd_session_send(session, i, i + sample_count,
chunk, chunk_end - i) != SRD_OK) {
- _error_message = tr("Failed to initialise decoder");
+ _error_message = tr("Decoder reported an error");
break;
}
srd_session_destroy(session);
}
+bool DecoderStack::index_entry_start_sample_gt(
+ const uint64_t sample, const size_t index) const
+{
+ assert(index < _annotations.size());
+ return _annotations[index].start_sample() > sample;
+}
+
+bool DecoderStack::index_entry_end_sample_lt(
+ const size_t index, const uint64_t sample) const
+{
+ assert(index < _annotations.size());
+ return _annotations[index].end_sample() < sample;
+}
+
+bool DecoderStack::index_entry_end_sample_gt(
+ const uint64_t sample, const size_t index) const
+{
+ assert(index < _annotations.size());
+ return _annotations[index].end_sample() > sample;
+}
+
+void DecoderStack::insert_annotation_into_start_index(
+ const pv::data::decode::Annotation &a, const size_t storage_offset)
+{
+ vector<size_t>::iterator i = _ann_start_index.end();
+ if (!_ann_start_index.empty() &&
+ _annotations[_ann_start_index.back()].start_sample() >
+ a.start_sample())
+ i = upper_bound(_ann_start_index.begin(),
+ _ann_start_index.end(), a.start_sample(),
+ bind(&DecoderStack::index_entry_start_sample_gt,
+ this, _1, _2));
+
+ _ann_start_index.insert(i, storage_offset);
+}
+
+void DecoderStack::insert_annotation_into_end_index(
+ const pv::data::decode::Annotation &a, const size_t storage_offset)
+{
+ vector<size_t>::iterator i = _ann_end_index.end();
+ if (!_ann_end_index.empty() &&
+ _annotations[_ann_end_index.back()].end_sample() <
+ a.end_sample())
+ i = upper_bound(_ann_end_index.begin(),
+ _ann_end_index.end(), a.end_sample(),
+ bind(&DecoderStack::index_entry_end_sample_gt,
+ this, _1, _2));
+
+ _ann_end_index.insert(i, storage_offset);
+}
+
void DecoderStack::annotation_callback(srd_proto_data *pdata, void *decoder)
{
- using namespace pv::view::decode;
+ using pv::data::decode::Annotation;
+
+ GSList *l, *ll;
+ int row, ann_class, idx = 0;
+ struct srd_decoder_annotation_row *ann_row;
+ struct srd_decoder *decc;
assert(pdata);
assert(decoder);
DecoderStack *const d = (DecoderStack*)decoder;
- shared_ptr<Annotation> a(new Annotation(pdata));
lock_guard<mutex> lock(d->_mutex);
+
+ Annotation a = Annotation(pdata);
+
+ decc = pdata->pdo->di->decoder;
+ BOOST_FOREACH(const shared_ptr<decode::Decoder> &dec, d->stack()) {
+ if (dec->decoder() == decc)
+ break;
+ idx++;
+ }
+ a.set_pd_index(idx);
+
+ for (l = decc->annotation_rows, row = 0; l; l = l->next, row++)
+ {
+ ann_row = (struct srd_decoder_annotation_row *)l->data;
+
+ for (ll = ann_row->ann_classes, ann_class = 0; ll;
+ ll = ll->next, ann_class++)
+ {
+ if (GPOINTER_TO_INT(ll->data) == a.format())
+ a.set_row(row);
+ }
+ }
+
+ const size_t offset = d->_annotations.size();
d->_annotations.push_back(a);
+ d->insert_annotation_into_start_index(a, offset);
+ d->insert_annotation_into_end_index(a, offset);
+
d->new_decode_data();
}