#include <utility>
#include <vector>
+namespace LogicDataSnapshotTest {
+ class Pow2;
+ class Basic;
+ class LargeData;
+ class Pulses;
+ class LongPulses;
+}
+
class LogicDataSnapshot : public DataSnapshot
{
+private:
+ struct MipMapLevel
+ {
+ uint64_t length;
+ uint64_t data_length;
+ void *data;
+ };
+
+private:
+ static const int ScaleStepCount = 10;
+ static const int MipMapScalePower;
+ static const int MipMapScaleFactor;
+ static const float LogMipMapScaleFactor;
+ static const uint64_t MipMapDataUnit;
+
public:
typedef std::pair<int64_t, bool> EdgePair;
public:
LogicDataSnapshot(const sr_datafeed_logic &logic);
+ virtual ~LogicDataSnapshot();
+
void append_payload(const sr_datafeed_logic &logic);
+private:
+ void reallocate_mip_map(MipMapLevel &m);
+
+ void append_payload_to_mipmap();
+
+public:
uint64_t get_sample(uint64_t index) const;
/**
* @param[out] edges The vector to place the edges into.
* @param[in] start The start sample index.
* @param[in] end The end sample index.
- * @param[in] quantization_length The minimum period of time that
+ * @param[in] min_length The minimum number of samples that
* can be resolved at this level of detail.
* @param[in] sig_index The index of the signal.
**/
void get_subsampled_edges(std::vector<EdgePair> &edges,
int64_t start, int64_t end,
- int64_t quantization_length, int sig_index);
+ float min_length, int sig_index);
+
+private:
+ uint64_t get_subsample(int level, uint64_t offset) const;
+
+ static int64_t pow2_ceil(int64_t x, unsigned int power);
+
+private:
+ struct MipMapLevel _mip_map[ScaleStepCount];
+ uint64_t _last_append_sample;
+
+ friend class LogicDataSnapshotTest::Pow2;
+ friend class LogicDataSnapshotTest::Basic;
+ friend class LogicDataSnapshotTest::LargeData;
+ friend class LogicDataSnapshotTest::Pulses;
+ friend class LogicDataSnapshotTest::LongPulses;
};