X-Git-Url: https://sigrok.org/gitweb/?p=pulseview.git;a=blobdiff_plain;f=pv%2Fdata%2Fanalogsegment.cpp;h=b3f310a144c5cd7ce2e18fb83ed242bd10526b6c;hp=d40c40f205d5cac5440585a71834425b2c0d724b;hb=c70e34649be658e7a443d5e68abe16dd55d53bf2;hpb=26a883ede0bcf68d087eda5dd2082890d36c7aef diff --git a/pv/data/analogsegment.cpp b/pv/data/analogsegment.cpp index d40c40f2..b3f310a1 100644 --- a/pv/data/analogsegment.cpp +++ b/pv/data/analogsegment.cpp @@ -26,6 +26,7 @@ #include +#include "analog.hpp" #include "analogsegment.hpp" using std::lock_guard; @@ -44,8 +45,11 @@ const float AnalogSegment::LogEnvelopeScaleFactor = logf(EnvelopeScaleFactor); const uint64_t AnalogSegment::EnvelopeDataUnit = 64*1024; // bytes -AnalogSegment::AnalogSegment(uint64_t samplerate) : - Segment(samplerate, sizeof(float)) +AnalogSegment::AnalogSegment(Analog& owner, uint64_t samplerate) : + Segment(samplerate, sizeof(float)), + owner_(owner), + min_value_(0), + max_value_(0) { lock_guard lock(mutex_); memset(envelope_levels_, 0, sizeof(envelope_levels_)); @@ -65,6 +69,8 @@ void AnalogSegment::append_interleaved_samples(const float *data, lock_guard lock(mutex_); + uint64_t prev_sample_count = sample_count_; + for (uint32_t i=0; i < sample_count; i++) { append_single_sample((void*)data); data += stride; @@ -72,6 +78,13 @@ void AnalogSegment::append_interleaved_samples(const float *data, // Generate the first mip-map from the data append_payload_to_envelope_levels(); + + if (sample_count > 1) + owner_.notify_samples_added(this, prev_sample_count + 1, + prev_sample_count + 1 + sample_count); + else + owner_.notify_samples_added(this, prev_sample_count + 1, + prev_sample_count + 1); } const float* AnalogSegment::get_samples( @@ -88,17 +101,22 @@ const float* AnalogSegment::get_samples( return (float*)get_raw_samples(start_sample, (end_sample - start_sample)); } -SegmentAnalogDataIterator* AnalogSegment::begin_sample_iteration(uint64_t start) const +const std::pair AnalogSegment::get_min_max() const +{ + return std::make_pair(min_value_, max_value_); +} + +SegmentAnalogDataIterator* AnalogSegment::begin_sample_iteration(uint64_t start) { return (SegmentAnalogDataIterator*)begin_raw_sample_iteration(start); } -void AnalogSegment::continue_sample_iteration(SegmentAnalogDataIterator* it, uint64_t increase) const +void AnalogSegment::continue_sample_iteration(SegmentAnalogDataIterator* it, uint64_t increase) { Segment::continue_raw_sample_iteration((SegmentRawDataIterator*)it, increase); } -void AnalogSegment::end_sample_iteration(SegmentAnalogDataIterator* it) const +void AnalogSegment::end_sample_iteration(SegmentAnalogDataIterator* it) { Segment::end_raw_sample_iteration((SegmentRawDataIterator*)it); } @@ -149,6 +167,18 @@ void AnalogSegment::append_payload_to_envelope_levels() prev_length = e0.length; e0.length = sample_count_ / EnvelopeScaleFactor; + // Calculate min/max values in case we have too few samples for an envelope + if (sample_count_ < EnvelopeScaleFactor) { + it = begin_raw_sample_iteration(0); + for (uint64_t i = 0; i < sample_count_; i++) { + const float sample = *((float*)it->value); + if (sample < min_value_) min_value_ = sample; + if (sample > max_value_) max_value_ = sample; + continue_raw_sample_iteration(it, 1); + } + end_raw_sample_iteration(it); + } + // Break off if there are no new samples to compute if (e0.length == prev_length) return; @@ -170,6 +200,9 @@ void AnalogSegment::append_payload_to_envelope_levels() *max_element(samples, samples + EnvelopeScaleFactor), }; + if (sub_sample.min < min_value_) min_value_ = sub_sample.min; + if (sub_sample.max > max_value_) max_value_ = sub_sample.max; + continue_raw_sample_iteration(it, EnvelopeScaleFactor); *dest_ptr++ = sub_sample; } @@ -202,7 +235,7 @@ void AnalogSegment::append_payload_to_envelope_levels() EnvelopeSample sub_sample = *src_ptr++; while (src_ptr < end_src_ptr) { - sub_sample.min = min(sub_sample.min, src_ptr->min); + sub_sample.min = min(sub_sample.min, src_ptr->min);; sub_sample.max = max(sub_sample.max, src_ptr->max); src_ptr++; }