// YDataSet constructor for the new datalogger
public YDataSet(YFunction parent)
{
_parent = parent;
_startTime = 0;
_endTime = 0;
_hardwareId = "";
_summary = new YMeasure();
}
//--- (end of generated code: YDataSet definitions)
// YDataSet constructor, when instantiated directly by a function
public YDataSet(YFunction parent, string functionId, string unit, double startTime, double endTime)
{
_parent = parent;
_functionId = functionId;
_unit = unit;
_startTimeMs = startTime * 1000;
_endTimeMs = endTime * 1000;
_progress = -1;
_hardwareId = "";
_summary = new YMeasure();
}
//--- (end of generated code: YDataSet definitions)
// YDataSet constructor, when instantiated directly by a function
public YDataSet(YFunction parent, string functionId, string unit, long startTime, long endTime)
{
_parent = parent;
_functionId = functionId;
_unit = unit;
_startTime = startTime;
_endTime = endTime;
_progress = -1;
_hardwareId = "";
_summary = new YMeasure();
}
public override async Task <int> _invokeTimedReportCallback(YMeasure value)
{
if (_timedReportCallbackPressure != null)
{
await _timedReportCallbackPressure(this, value);
}
else
{
await base._invokeTimedReportCallback(value);
}
return(0);
}
public virtual async Task invoke()
{
if (_value == null)
{
YSensor sensor = (YSensor)_fun;
YMeasure mesure = await sensor._decodeTimedReport(_timestamp, _report);
await sensor._invokeTimedReportCallback(mesure);
}
else
{
// new value
await _fun._invokeValueCallback(_value);
}
}
/**
* <summary>
* Returns the detailed set of measures for the time interval corresponding
* to a given condensed measures previously returned by <c>get_preview()</c>.
* <para>
* The result is provided as a list of <c>YMeasure</c> objects.
* </para>
* <para>
* </para>
* </summary>
* <param name="measure">
* condensed measure from the list previously returned by
* <c>get_preview()</c>.
* </param>
* <returns>
* a table of records, where each record depicts the
* measured values during a time interval
* </returns>
* <para>
* On failure, throws an exception or returns an empty array.
* </para>
*/
public virtual async Task <List <YMeasure> > get_measuresAt(YMeasure measure)
{
double startUtcMs;
YDataStream stream;
List <List <double> > dataRows = new List <List <double> >();
List <YMeasure> measures = new List <YMeasure>();
double tim;
double itv;
double end_;
int nCols;
int minCol;
int avgCol;
int maxCol;
startUtcMs = measure.get_startTimeUTC() * 1000;
stream = null;
for (int ii = 0; ii < _streams.Count; ii++)
{
if (Math.Round(await _streams[ii].get_realStartTimeUTC() * 1000) == startUtcMs)
{
stream = _streams[ii];
}
}
if (stream == null)
{
return(measures);
}
dataRows = await stream.get_dataRows();
if (dataRows.Count == 0)
{
return(measures);
}
tim = Math.Round(await stream.get_realStartTimeUTC() * 1000);
itv = Math.Round(await stream.get_dataSamplesInterval() * 1000);
if (tim < itv)
{
tim = itv;
}
nCols = dataRows[0].Count;
minCol = 0;
if (nCols > 2)
{
avgCol = 1;
}
else
{
avgCol = 0;
}
if (nCols > 2)
{
maxCol = 2;
}
else
{
maxCol = 0;
}
for (int ii = 0; ii < dataRows.Count; ii++)
{
end_ = tim + itv;
if ((end_ > _startTimeMs) && ((_endTimeMs == 0) || (tim < _endTimeMs)))
{
measures.Add(new YMeasure(tim / 1000.0, end_ / 1000.0, dataRows[ii][minCol], dataRows[ii][avgCol], dataRows[ii][maxCol]));
}
tim = end_;
}
return(measures);
}
public virtual async Task <int> loadSummary(byte[] data)
{
List <List <double> > dataRows = new List <List <double> >();
double tim;
double mitv;
double itv;
double fitv;
double end_;
int nCols;
int minCol;
int avgCol;
int maxCol;
int res;
int m_pos;
double previewTotalTime;
double previewTotalAvg;
double previewMinVal;
double previewMaxVal;
double previewAvgVal;
double previewStartMs;
double previewStopMs;
double previewDuration;
double streamStartTimeMs;
double streamDuration;
double streamEndTimeMs;
double minVal;
double avgVal;
double maxVal;
double summaryStartMs;
double summaryStopMs;
double summaryTotalTime;
double summaryTotalAvg;
double summaryMinVal;
double summaryMaxVal;
string url;
string strdata;
List <double> measure_data = new List <double>();
if (_progress < 0)
{
strdata = YAPI.DefaultEncoding.GetString(data);
if (strdata == "{}")
{
_parent._throw(YAPI.VERSION_MISMATCH, "device firmware is too old");
return(YAPI.VERSION_MISMATCH);
}
res = await this._parse(strdata);
if (res < 0)
{
return(res);
}
}
summaryTotalTime = 0;
summaryTotalAvg = 0;
summaryMinVal = YAPI.MAX_DOUBLE;
summaryMaxVal = YAPI.MIN_DOUBLE;
summaryStartMs = YAPI.MAX_DOUBLE;
summaryStopMs = YAPI.MIN_DOUBLE;
// Parse complete streams
for (int ii = 0; ii < _streams.Count; ii++)
{
streamStartTimeMs = Math.Round(await _streams[ii].get_realStartTimeUTC() * 1000);
streamDuration = await _streams[ii].get_realDuration();
streamEndTimeMs = streamStartTimeMs + Math.Round(streamDuration * 1000);
if ((streamStartTimeMs >= _startTimeMs) && ((_endTimeMs == 0) || (streamEndTimeMs <= _endTimeMs)))
{
// stream that are completely inside the dataset
previewMinVal = await _streams[ii].get_minValue();
previewAvgVal = await _streams[ii].get_averageValue();
previewMaxVal = await _streams[ii].get_maxValue();
previewStartMs = streamStartTimeMs;
previewStopMs = streamEndTimeMs;
previewDuration = streamDuration;
}
else
{
// stream that are partially in the dataset
// we need to parse data to filter value outside the dataset
url = _streams[ii].imm_get_url();
data = await _parent._download(url);
_streams[ii].imm_parseStream(data);
dataRows = await _streams[ii].get_dataRows();
if (dataRows.Count == 0)
{
return(await this.get_progress());
}
tim = streamStartTimeMs;
fitv = Math.Round(await _streams[ii].get_firstDataSamplesInterval() * 1000);
itv = Math.Round(await _streams[ii].get_dataSamplesInterval() * 1000);
nCols = dataRows[0].Count;
minCol = 0;
if (nCols > 2)
{
avgCol = 1;
}
else
{
avgCol = 0;
}
if (nCols > 2)
{
maxCol = 2;
}
else
{
maxCol = 0;
}
previewTotalTime = 0;
previewTotalAvg = 0;
previewStartMs = streamEndTimeMs;
previewStopMs = streamStartTimeMs;
previewMinVal = YAPI.MAX_DOUBLE;
previewMaxVal = YAPI.MIN_DOUBLE;
m_pos = 0;
while (m_pos < dataRows.Count)
{
measure_data = dataRows[m_pos];
if (m_pos == 0)
{
mitv = fitv;
}
else
{
mitv = itv;
}
end_ = tim + mitv;
if ((end_ > _startTimeMs) && ((_endTimeMs == 0) || (tim < _endTimeMs)))
{
minVal = measure_data[minCol];
avgVal = measure_data[avgCol];
maxVal = measure_data[maxCol];
if (previewStartMs > tim)
{
previewStartMs = tim;
}
if (previewStopMs < end_)
{
previewStopMs = end_;
}
if (previewMinVal > minVal)
{
previewMinVal = minVal;
}
if (previewMaxVal < maxVal)
{
previewMaxVal = maxVal;
}
previewTotalAvg = previewTotalAvg + (avgVal * mitv);
previewTotalTime = previewTotalTime + mitv;
}
tim = end_;
m_pos = m_pos + 1;
}
if (previewTotalTime > 0)
{
previewAvgVal = previewTotalAvg / previewTotalTime;
previewDuration = (previewStopMs - previewStartMs) / 1000.0;
}
else
{
previewAvgVal = 0.0;
previewDuration = 0.0;
}
}
_preview.Add(new YMeasure(previewStartMs / 1000.0, previewStopMs / 1000.0, previewMinVal, previewAvgVal, previewMaxVal));
if (summaryMinVal > previewMinVal)
{
summaryMinVal = previewMinVal;
}
if (summaryMaxVal < previewMaxVal)
{
summaryMaxVal = previewMaxVal;
}
if (summaryStartMs > previewStartMs)
{
summaryStartMs = previewStartMs;
}
if (summaryStopMs < previewStopMs)
{
summaryStopMs = previewStopMs;
}
summaryTotalAvg = summaryTotalAvg + (previewAvgVal * previewDuration);
summaryTotalTime = summaryTotalTime + previewDuration;
}
if ((_startTimeMs == 0) || (_startTimeMs > summaryStartMs))
{
_startTimeMs = summaryStartMs;
}
if ((_endTimeMs == 0) || (_endTimeMs < summaryStopMs))
{
_endTimeMs = summaryStopMs;
}
if (summaryTotalTime > 0)
{
_summary = new YMeasure(summaryStartMs / 1000.0, summaryStopMs / 1000.0, summaryMinVal, summaryTotalAvg / summaryTotalTime, summaryMaxVal);
}
else
{
_summary = new YMeasure(0.0, 0.0, YAPI.INVALID_DOUBLE, YAPI.INVALID_DOUBLE, YAPI.INVALID_DOUBLE);
}
return(await this.get_progress());
}
/**
* <summary>
* Returns the detailed set of measures for the time interval corresponding
* to a given condensed measures previously returned by <c>get_preview()</c>.
* <para>
* The result is provided as a list of YMeasure objects.
* </para>
* <para>
* </para>
* </summary>
* <param name="measure">
* condensed measure from the list previously returned by
* <c>get_preview()</c>.
* </param>
* <returns>
* a table of records, where each record depicts the
* measured values during a time interval
* </returns>
* <para>
* On failure, throws an exception or returns an empty array.
* </para>
*/
public virtual async Task <List <YMeasure> > get_measuresAt(YMeasure measure)
{
long startUtc;
YDataStream stream;
List <List <double> > dataRows = new List <List <double> >();
List <YMeasure> measures = new List <YMeasure>();
double tim;
double itv;
int nCols;
int minCol;
int avgCol;
int maxCol;
startUtc = (long)Math.Round(measure.get_startTimeUTC());
stream = null;
for (int ii = 0; ii < _streams.Count; ii++)
{
if (await _streams[ii].get_startTimeUTC() == startUtc)
{
stream = _streams[ii];
}
}
if (stream == null)
{
return(measures);
}
dataRows = await stream.get_dataRows();
if (dataRows.Count == 0)
{
return(measures);
}
tim = (double)await stream.get_startTimeUTC();
itv = await stream.get_dataSamplesInterval();
if (tim < itv)
{
tim = itv;
}
nCols = dataRows[0].Count;
minCol = 0;
if (nCols > 2)
{
avgCol = 1;
}
else
{
avgCol = 0;
}
if (nCols > 2)
{
maxCol = 2;
}
else
{
maxCol = 0;
}
for (int ii = 0; ii < dataRows.Count; ii++)
{
if ((tim >= _startTime) && ((_endTime == 0) || (tim <= _endTime)))
{
measures.Add(new YMeasure(tim - itv, tim, dataRows[ii][minCol], dataRows[ii][avgCol], dataRows[ii][maxCol]));
}
tim = tim + itv;
}
return(measures);
}
// YDataSet parser for stream list
protected internal virtual async Task <int> _parse(string json_str)
{
YJSONObject json;
YJSONArray jstreams;
double summaryMinVal = double.MaxValue;
double summaryMaxVal = double.Epsilon;
double summaryTotalTime = 0;
double summaryTotalAvg = 0;
long streamStartTime;
long streamEndTime;
long startTime = 0x7fffffff;
long endTime = 0;
json = new YJSONObject(json_str);
json.parse();
_functionId = json.getString("id");
_unit = json.getString("unit");
if (json.has("calib"))
{
_calib = YAPIContext.imm_decodeFloats(json.getString("calib"));
_calib[0] = _calib[0] / 1000;
}
else
{
_calib = YAPIContext.imm_decodeWords(json.getString("cal"));
}
_streams = new List <YDataStream>();
_preview = new List <YMeasure>();
_measures = new List <YMeasure>();
jstreams = json.getYJSONArray("streams");
for (int i = 0; i < jstreams.Length; i++)
{
YDataStream stream = _parent.imm_findDataStream(this, jstreams.getString(i));
streamStartTime = await stream.get_startTimeUTC() - await stream.get_dataSamplesIntervalMs() / 1000;
streamEndTime = await stream.get_startTimeUTC() + await stream.get_duration();
if (_startTime > 0 && streamEndTime <= _startTime)
{
// this stream is too early, drop it
}
else if (_endTime > 0 && await stream.get_startTimeUTC() > _endTime)
{
// this stream is too late, drop it
}
else
{
_streams.Add(stream);
if (startTime > streamStartTime)
{
startTime = streamStartTime;
}
if (endTime < streamEndTime)
{
endTime = streamEndTime;
}
if (await stream.isClosed() && await stream.get_startTimeUTC() >= _startTime && (_endTime == 0 || streamEndTime <= _endTime))
{
if (summaryMinVal > await stream.get_minValue())
{
summaryMinVal = await stream.get_minValue();
}
if (summaryMaxVal < await stream.get_maxValue())
{
summaryMaxVal = await stream.get_maxValue();
}
summaryTotalAvg += await stream.get_averageValue() * await stream.get_duration();
summaryTotalTime += await stream.get_duration();
YMeasure rec = new YMeasure(await stream.get_startTimeUTC(), streamEndTime, await stream.get_minValue(), await stream.get_averageValue(), await stream.get_maxValue());
_preview.Add(rec);
}
}
}
if ((_streams.Count > 0) && (summaryTotalTime > 0))
{
// update time boundaries with actual data
if (_startTime < startTime)
{
_startTime = startTime;
}
if (_endTime == 0 || _endTime > endTime)
{
_endTime = endTime;
}
_summary = new YMeasure(_startTime, _endTime, summaryMinVal, summaryTotalAvg / summaryTotalTime, summaryMaxVal);
}
_progress = 0;
return(await this.get_progress());
}
