/* SleepLib Event Class Header
*
* Copyright (C) 2011-2018 Mark Watkins <mark@jedimark.net>
*
* This file is subject to the terms and conditions of the GNU General Public
* License. See the file COPYING in the main directory of the source code
* for more details. */
#ifndef EVENT_H
#define EVENT_H
#include <QDateTime>
#include "machine_common.h"
//! \brief EventLists can either be Waveform or Event types
enum EventListType { EVL_Waveform, EVL_Event };
/*! \class EventList
\author Mark Watkins <jedimark_at_users.sourceforge.net>
\brief EventLists contains waveforms at a specified rate, or a list of event and time data.
*/
class EventList
{
friend class Session;
public:
EventList(EventListType et, EventDataType gain = 1.0, EventDataType offset = 0.0,
EventDataType min = 0.0, EventDataType max = 0.0, double rate = 0.0,
bool second_field = false);
//! \brief Wipe the event list so it can be reused
void clear();
/*! \brief Add an event starting at time, containing data to this event list
Note, data2 is only used if second_field is specified in the constructor */
void AddEvent(qint64 time, EventStoreType data);
void AddEvent(qint64 time, EventStoreType data, EventStoreType data2);
void AddWaveform(qint64 start, qint16 *data, int recs, qint64 duration);
void AddWaveform(qint64 start, unsigned char *data, int recs, qint64 duration);
void AddWaveform(qint64 start, char *data, int recs, qint64 duration);
//! \brief Returns a count of records contained in this EventList
inline quint32 count() const { return m_count; }
//! \brief Manually sets a count of records contained in this EventList
void setCount(quint32 count) { m_count = count; }
//! \brief Returns a raw ("ungained") data value from index position i
inline EventStoreType raw(int i) const { return m_data[i]; }
//! \brief Returns a raw ("ungained") data2 value from index position i
inline EventStoreType raw2(int i) const { return m_data2[i]; }
//! \brief Returns a data value multiplied by gain from index position i
EventDataType data(quint32 i);
//! \brief Returns a data2 value multiplied by gain from index position i
EventDataType data2(quint32 i);
//! \brief Returns either the timestamp for the i'th event, or calculates the waveform time position i
qint64 time(quint32 i) const;
//! \brief Returns true if this EventList uses the second data field
bool hasSecondField() { return m_second_field; }
//! \brief Returns the first events/waveforms starting time in milliseconds since epoch
inline qint64 first() const { return m_first; }
//! \brief Returns the last events/waveforms ending time in milliseconds since epoch
inline qint64 last() const { return m_last; }
//! \brief Returns the timespan covered by this EventList, in milliseconds since epoch
inline qint64 duration() { return m_last - m_first; }
//! \brief Sets the first events/waveforms starting time in milliseconds since epoch
void setFirst(qint64 val) { m_first = val; }
//! \brief Sets the last events/waveforms ending time in milliseconds since epoch
void setLast(qint64 val) { m_last = val; }
//! \brief Set this EventList to either EVL_Waveform or EVL_Event type
void setType(EventListType type) { m_type = type; }
//! \brief Change the gain multiplier value
void setGain(EventDataType v) { m_gain = v; }
//! \brief Change the gain offset value
void setOffset(EventDataType v) { m_offset = v; }
//! \brief Set the Minimum value for data
void setMin(EventDataType v) { m_min = v; }
//! \brief Set the Maximum value for data
void setMax(EventDataType v) { m_max = v; }
//! \brief Set the Minimum value for data2
void setMin2(EventDataType v) { m_min2 = v; }
//! \brief Set the Maximum value for data2
void setMax2(EventDataType v) { m_max2 = v; }
//! \brief Set the sample rate
void setRate(EventDataType v) { m_rate = v; }
//void setCode(ChannelID id) { m_code=id; }
//! \brief Return the Minimum data value
inline EventDataType Min() { return m_min; }
//! \brief Return the Maximum data value
inline EventDataType Max() { return m_max; }
//! \brief Return the Minimum data2 value
inline EventDataType min2() { return m_min2; }
//! \brief Return the Maximum data value
inline EventDataType max2() { return m_max2; }
//! \brief Return the gain value
inline EventDataType gain() const { return m_gain; }
//! \brief Return the gain offset
inline EventDataType offset() { return m_offset; }
//! \brief Return the sample rate
inline EventDataType rate() { return m_rate; }
//! \brief Return the EventList type, either EVL_Waveform or EVL_Event
inline EventListType type() { return m_type; }
//inline const ChannelID & code() { return m_code; }
//! \brief Returns whether or not min/max values are updated while adding events
inline const bool &update_minmax() { return m_update_minmax; }
//! \brief Returns the dimension (units type) of the contained data object
QString dimension() { return m_dimension; }
//! \brief Sets the dimension (units type) of the contained data object
void setDimension(QString dimension) { m_dimension = dimension; }
//! \brief Returns the data storage vector
QVector<EventStoreType> &getData() { return m_data; }
//! \brief Returns the data2 storage vector
QVector<EventStoreType> &getData2() { return m_data2; }
//! \brief Returns the time storage vector (only used in EVL_Event types)
QVector<quint32> &getTime() { return m_time; }
// Don't mess with these without considering the consequences
void rawDataResize(quint32 i) { m_data.resize(i); m_count = i; }
void rawData2Resize(quint32 i) { m_data2.resize(i); m_count = i; }
void rawTimeResize(quint32 i) { m_time.resize(i); m_count = i; }
EventStoreType *rawData() { return m_data.data(); }
EventStoreType *rawData2() { return m_data2.data(); }
quint32 *rawTime() { return m_time.data(); }
protected:
//! \brief The time storage vector, in 32bits delta format, added as offsets to m_first
QVector<quint32> m_time;
//! \brief The "ungained" raw data storage vector
QVector<EventStoreType> m_data;
//! \brief The "ungained" raw data2 storage vector
QVector<EventStoreType> m_data2;
//ChannelID m_code;
//! \brief Either EVL_Waveform or EVL_Event
EventListType m_type;
//! \brief Count of events
quint32 m_count;
EventDataType m_gain;
EventDataType m_offset;
EventDataType m_min, m_min2;
EventDataType m_max, m_max2;
EventDataType m_rate; // Waveform sample rate
QString m_dimension;
qint64 m_first, m_last;
bool m_update_minmax;
bool m_second_field;
};
#endif // EVENT_H