/// <summary>
/// Converts summary indices to a tracks image, one track for each index.
/// </summary>
public static Image <Rgb24> DrawImageOfSummaryIndices(
Dictionary <string, IndexProperties> listOfIndexProperties,
Dictionary <string, double[]> dictionaryOfSummaryIndices,
string titleText,
TimeSpan indexCalculationDuration,
DateTimeOffset?recordingStartDate,
List <GapsAndJoins> errors = null,
bool verbose = true)
{
const int trackHeight = DefaultTrackHeight;
int scaleLength = 0;
var backgroundColour = Color.White;
// init list of bitmap images to store image tracks
var bitmapList = new List <Tuple <IndexProperties, Image <Rgb24> > >(dictionaryOfSummaryIndices.Keys.Count);
// set up strings to store info about which indices are used
var s1 = new StringBuilder("Indices not found:");
var s2 = new StringBuilder("Indices not plotted:");
// accumulate the individual tracks in a List
foreach (string key in dictionaryOfSummaryIndices.Keys)
{
if (!listOfIndexProperties.ContainsKey(key))
{
s1.Append(" {0},".Format2(key));
continue;
}
IndexProperties ip = listOfIndexProperties[key];
if (!ip.DoDisplay)
{
s2.Append(" {0},".Format2(key));
continue;
}
//string name = ip.Name;
double[] array = dictionaryOfSummaryIndices[key];
scaleLength = array.Length;
// alternate rows have different colour to make tracks easier to read
backgroundColour = backgroundColour == Color.LightGray ? Color.White : Color.LightGray;
var bitmap = ip.GetPlotImage(array, backgroundColour, errors);
bitmapList.Add(Tuple.Create(ip, bitmap));
}
if (verbose)
{
Logger.Warn(s1.ToString());
Logger.Warn(s2.ToString());
}
var listOfBitmaps = bitmapList
// .OrderBy(tuple => tuple.Item1.Order) // don't order because want to preserve alternating gray/white rows.
.Select(tuple => tuple.Item2)
.Where(b => b != null).ToList();
//set up the composite image parameters
int x_offset = 2;
int graphWidth = x_offset + scaleLength;
int imageWidth = x_offset + scaleLength + TrackEndPanelWidth;
Image <Rgb24> titleBmp = ImageTrack.DrawTitleTrack(imageWidth, trackHeight, titleText);
TimeSpan xAxisPixelDuration = indexCalculationDuration;
TimeSpan fullDuration = TimeSpan.FromTicks(xAxisPixelDuration.Ticks * graphWidth);
Image <Rgb24> timeBmp1 = ImageTrack.DrawTimeRelativeTrack(fullDuration, graphWidth, trackHeight);
Image <Rgb24> timeBmp2 = timeBmp1;
DateTimeOffset?dateTimeOffset = recordingStartDate;
if (dateTimeOffset.HasValue)
{
// draw extra time scale with absolute start time. AND THEN Do SOMETHING WITH IT.
timeBmp2 = ImageTrack.DrawTimeTrack(fullDuration, dateTimeOffset, graphWidth, trackHeight);
}
//draw the composite bitmap
var imageList = new List <Image <Rgb24> >
{
titleBmp,
timeBmp1,
};
foreach (var image in listOfBitmaps)
{
imageList.Add(image);
}
imageList.Add(timeBmp2);
var compositeBmp = (Image <Rgb24>)ImageTools.CombineImagesVertically(imageList);
return(compositeBmp);
}
// ##############################################################################################################
// ######################### ORIGINAL METHOD FOR STITCHING Gianna Pavan's DATA (10 minutes every 30 minutes)
/// <summary>
/// This method stitches together spectrogram images derived from consecutive shorter recordings over a 24 hour period.
/// Currently set for the recording protocol of Gianna Pavan (10 minutes every 30 minutes).
///
/// Call this method from Sandpit or where ever!
///
/// IMPORTANT NOTE: This method does NOT check to see if the images are in temporal order.
/// A SORT line should be inserted somewhere
/// </summary>
public static void StitchPartialSpectrograms()
{
//######################################################
// ********************* set the below parameters
var inputDirectory = new DirectoryInfo(@"Z:\Italy_GianniPavan\output4\Towsey.Acoustic");
string opFileStem = "Sassofratino_24hours_v3";
var outputDirectory = new DirectoryInfo(@"Z:\Italy_GianniPavan\output4\");
// a filter to select images to be stitched
string endString = "_000.2MAPS.png";
// recording protocol
int minutesBetweenRecordingStarts = 30;
TimeSpan minOffset = TimeSpan.Zero; // assume first recording in sequence started at midnight
// X-axis timescale
int pixelColumnsPerHour = 60;
int trackHeight = IndexDisplay.DefaultTrackHeight;
// ********************* set the above parameters
//######################################################
string[] fileEntries = Directory.GetFiles(inputDirectory.FullName);
var images = new List <Image>();
bool interpolateSpacer = true;
var imagePair = new Image[2];
TimeSpan xAxisTicInterval = TimeSpan.FromMinutes(pixelColumnsPerHour); // assume 60 pixels per hour
// loop through all files in the required directory
foreach (string path in fileEntries)
{
// filter files.
if (!path.EndsWith(endString))
{
continue;
}
var image = new Bitmap(path);
int spacerWidth = minutesBetweenRecordingStarts - image.Width;
if (interpolateSpacer)
{
var spacer = new Bitmap(spacerWidth, image.Height);
imagePair[0] = image;
imagePair[1] = spacer;
image = (Bitmap)ImageTools.CombineImagesInLine(imagePair);
}
images.Add(image);
}
var compositeBmp = ImageTools.CombineImagesInLine(images.ToArray());
var fullDuration = TimeSpan.FromMinutes(compositeBmp.Width);
var timeBmp = ImageTrack.DrawTimeTrack(fullDuration, minOffset, xAxisTicInterval, compositeBmp.Width, trackHeight, "hours");
var gr = Graphics.FromImage(compositeBmp);
int halfHeight = compositeBmp.Height / 2;
//add in the title bars
string title = $"24 hour FALSE-COLOUR SPECTROGRAM (scale: hours x kHz) (colour: R-G-B = BGN-AVG-CVR) {Meta.OrganizationTag} ";
var titleBmp = ImageTrack.DrawTitleTrack(compositeBmp.Width, trackHeight, title);
int offset = 0;
gr.DrawImage(titleBmp, 0, offset); //draw in the top time scale
title = $"24 hour FALSE-COLOUR SPECTROGRAM (scale: hours x kHz) (colour: R-G-B = ACI-ENT-EVN) {Meta.OrganizationTag} ";
titleBmp = ImageTrack.DrawTitleTrack(compositeBmp.Width, trackHeight, title);
offset = halfHeight;
gr.DrawImage(titleBmp, 0, offset); //draw in the top time scale
//add in the timescale tracks
offset = trackHeight;
gr.DrawImage(timeBmp, 0, offset); //draw in the top time scale
offset = compositeBmp.Height - trackHeight;
gr.DrawImage(timeBmp, 0, offset); //draw in the top time scale
offset = halfHeight - trackHeight;
gr.DrawImage(timeBmp, 0, offset); //draw in the top time scale
offset = halfHeight + trackHeight;
gr.DrawImage(timeBmp, 0, offset); //draw in the top time scale
compositeBmp.Save(Path.Combine(outputDirectory.FullName, opFileStem + ".png"));
}
/// <summary>
/// Converts summary indices to a tracks image
/// </summary>
/// <param name="listOfIndexProperties"></param>
/// <param name="dictionaryOfSummaryIndices"></param>
/// <param name="titleText"></param>
/// <param name="indexCalculationDuration"></param>
/// <param name="recordingStartDate"></param>
/// <param name="sunriseDataFile"></param>
/// <param name="errors"></param>
public static Bitmap DrawImageOfSummaryIndices(
Dictionary <string, IndexProperties> listOfIndexProperties,
Dictionary <string, double[]> dictionaryOfSummaryIndices,
string titleText,
TimeSpan indexCalculationDuration,
DateTimeOffset?recordingStartDate,
FileInfo sunriseDataFile = null,
List <GapsAndJoins> errors = null,
bool verbose = false)
{
// to translate past keys into current keys
Dictionary <string, string> translationDictionary = InitialiseIndexProperties.GetKeyTranslationDictionary();
const int trackHeight = DefaultTrackHeight;
int scaleLength = 0;
var bitmapList = new List <Tuple <IndexProperties, Image> >(dictionaryOfSummaryIndices.Keys.Count);
// accumulate the individual tracks in a List
foreach (string key in dictionaryOfSummaryIndices.Keys)
{
string correctKey = key;
if (!listOfIndexProperties.ContainsKey(key))
{
if (translationDictionary.ContainsKey(key))
{
correctKey = translationDictionary[key];
LoggedConsole.WriteWarnLine(
"The csv header is an unknown index <{0}>. Translated to <{1}>",
key,
correctKey);
}
else
{
if (verbose)
{
Logger.Warn(
"A index properties configuration could not be found for {0} (not even in the translation directory). Property is ignored and not rendered"
.Format2(key));
}
continue;
}
}
IndexProperties ip = listOfIndexProperties[correctKey];
if (!ip.DoDisplay)
{
continue;
}
string name = ip.Name;
double[] array = dictionaryOfSummaryIndices[key];
scaleLength = array.Length;
Image bitmap = ip.GetPlotImage(array, errors);
bitmapList.Add(Tuple.Create(ip, bitmap));
}
var listOfBitmaps = bitmapList
.OrderBy(tuple => tuple.Item1.Order)
.Select(tuple => tuple.Item2)
.Where(b => b != null).ToList();
//set up the composite image parameters
int X_offset = 2;
int graphWidth = X_offset + scaleLength;
int imageWidth = X_offset + scaleLength + TrackEndPanelWidth;
TimeSpan scaleDuration = TimeSpan.FromMinutes(scaleLength);
int imageHt = trackHeight * (listOfBitmaps.Count + 4); //+3 for title and top and bottom time tracks
Bitmap titleBmp = ImageTrack.DrawTitleTrack(imageWidth, trackHeight, titleText);
//Bitmap time1Bmp = ImageTrack.DrawTimeTrack(scaleDuration, TimeSpan.Zero, DrawSummaryIndices.TimeScale, graphWidth, TrackHeight, "Time (hours)");
TimeSpan xAxisPixelDuration = indexCalculationDuration;
TimeSpan fullDuration = TimeSpan.FromTicks(xAxisPixelDuration.Ticks * graphWidth);
Bitmap timeBmp1 = ImageTrack.DrawTimeRelativeTrack(fullDuration, graphWidth, trackHeight);
Bitmap timeBmp2 = timeBmp1;
Bitmap suntrack = null;
DateTimeOffset?dateTimeOffset = recordingStartDate;
if (dateTimeOffset.HasValue)
{
// draw extra time scale with absolute start time. AND THEN Do SOMETHING WITH IT.
timeBmp2 = ImageTrack.DrawTimeTrack(fullDuration, dateTimeOffset, graphWidth, trackHeight);
suntrack = SunAndMoon.AddSunTrackToImage(scaleLength, dateTimeOffset, sunriseDataFile);
}
//draw the composite bitmap
var imageList = new List <Image>();
imageList.Add(titleBmp);
imageList.Add(timeBmp1);
for (int i = 0; i < listOfBitmaps.Count; i++)
{
imageList.Add(listOfBitmaps[i]);
}
imageList.Add(timeBmp2);
imageList.Add(suntrack);
Bitmap compositeBmp = (Bitmap)ImageTools.CombineImagesVertically(imageList);
return(compositeBmp);
}
public static void Execute(Arguments arguments)
{
var inputDirs = arguments.InputDataDirectories.Select(FileInfoExtensions.ToDirectoryInfo);
var output = arguments.OutputDirectory.ToDirectoryInfo();
string date = "# DATE AND TIME: " + DateTime.Now;
LoggedConsole.WriteLine("\n# DRAW an EASY IMAGE from consecutive days of SUMMARY INDICES in CSV files.");
LoggedConsole.WriteLine("# IT IS ASSUMED THAT THE CSV files are already concatenated into 24 hour files.");
LoggedConsole.WriteLine(date);
LoggedConsole.WriteLine("# Summary Index.csv files are in directories:");
foreach (DirectoryInfo dir in inputDirs)
{
LoggedConsole.WriteLine(" {0}", dir.FullName);
}
LoggedConsole.WriteLine("# Output directory: " + output);
if (arguments.StartDate == null)
{
LoggedConsole.WriteLine("# Start date = NULL (No argument provided). Will revise start date ....");
}
else
{
LoggedConsole.WriteLine("# Start date = " + arguments.StartDate.ToString());
}
if (arguments.EndDate == null)
{
LoggedConsole.WriteLine("# End date = NULL (No argument provided). Will revise end date ....");
}
else
{
LoggedConsole.WriteLine("# End date = " + arguments.EndDate.ToString());
}
LoggedConsole.WriteLine("# FILE FILTER = " + arguments.FileFilter);
LoggedConsole.WriteLine();
// PATTERN SEARCH FOR SUMMARY INDEX FILES.
//string pattern = "*__Towsey.Acoustic.Indices.csv";
FileInfo[] csvFiles = IndexMatrices.GetFilesInDirectories(inputDirs.ToArray(), arguments.FileFilter);
//LoggedConsole.WriteLine("# Subdirectories Count = " + subDirectories.Length);
LoggedConsole.WriteLine("# SummaryIndexFiles.csv Count = " + csvFiles.Length);
if (csvFiles.Length == 0)
{
LoggedConsole.WriteErrorLine("\n\nWARNING from method DrawEasyImage.Execute():");
LoggedConsole.WriteErrorLine(" No SUMMARY index files were found.");
LoggedConsole.WriteErrorLine(" RETURNING EMPTY HANDED!");
return;
}
// Sort the files by date and return as a dictionary: sortedDictionaryOfDatesAndFiles<DateTimeOffset, FileInfo>
//var sortedDictionaryOfDatesAndFiles = LDSpectrogramStitching.FilterFilesForDates(csvFiles, arguments.TimeSpanOffsetHint);
// calculate new start date if passed value = null.
DateTimeOffset?startDate = arguments.StartDate;
DateTimeOffset?endDate = arguments.EndDate;
TimeSpan totalTimespan = (DateTimeOffset)endDate - (DateTimeOffset)startDate;
int dayCount = totalTimespan.Days + 1; // assume last day has full 24 hours of recording available.
LoggedConsole.WriteLine("\n# Start date = " + startDate.ToString());
LoggedConsole.WriteLine("# End date = " + endDate.ToString());
LoggedConsole.WriteLine(string.Format("# Elapsed time = {0:f1} hours", dayCount * 24));
LoggedConsole.WriteLine("# Day count = " + dayCount + " (inclusive of start and end days)");
LoggedConsole.WriteLine("# Time Zone = " + arguments.TimeSpanOffsetHint.ToString());
// create top level output directory if it does not exist.
DirectoryInfo opDir = output;
if (!opDir.Exists)
{
opDir.Create();
}
// SET UP DEFAULT SITE LOCATION INFO -- DISCUSS IWTH ANTHONY
// The following location data is used only to draw the sunrise/sunset tracks on images.
double?latitude = null;
double?longitude = null;
var siteDescription = new SiteDescription();
siteDescription.SiteName = arguments.FileStemName;
siteDescription.Latitude = latitude;
siteDescription.Longitude = longitude;
// the following required if drawing the index images
FileInfo indexPropertiesConfig = null;
// require IndexGenerationData and indexPropertiesConfig for drawing
//indexGenerationData = IndexGenerationData.GetIndexGenerationData(csvFiles[0].Directory);
indexPropertiesConfig = arguments.IndexPropertiesConfig.ToFileInfo();
Dictionary <string, IndexProperties> listOfIndexProperties = IndexProperties.GetIndexProperties(indexPropertiesConfig);
Tuple <List <string>, List <double[]> > tuple = CsvTools.ReadCSVFile(csvFiles[0].FullName);
var names = tuple.Item1;
// default EASY indices
int redID = 3; // backgroundNoise
int grnID = 5; // avSNROfActiveframes
int bluID = 7; // events per second
string rep = @"bgn-avsnr-evn";
// ACI Ht Hpeaks EASY indices
if (false)
{
redID = 11; // ACI
grnID = 12; // Ht
//bluID = 13; // HavgSp
//bluID = 14; // Hvariance
//bluID = 15; // Hpeaks
bluID = 16; // Hcov
//bluID = 7; // SPT
rep = @"aci-ht-hcov";
//rep = @"aci-ht-spt";
}
// LF, MF, HF
if (true)
{
redID = 10; // LF
grnID = 9; // MF
bluID = 8; // HF
rep = @"lf-mf-hf";
}
IndexProperties redIndexProps = listOfIndexProperties[names[redID]];
IndexProperties grnIndexProps = listOfIndexProperties[names[grnID]];
IndexProperties bluIndexProps = listOfIndexProperties[names[bluID]];
int dayPixelHeight = 4;
int rowCount = (dayPixelHeight * dayCount) + 35; // +30 for grid lines
int colCount = 1440;
var bitmap = new Image <Rgb24>(colCount, rowCount);
var colour = Color.Yellow;
int currentRow = 0;
var oneDay = TimeSpan.FromHours(24);
int graphWidth = colCount;
int trackHeight = 20;
var stringFont = Drawing.Arial8;
string[] monthNames = { "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec" };
// for drawing the y-axis scale
int scaleWidth = trackHeight + 7;
var yAxisScale = new Image <Rgb24>(scaleWidth, rowCount + (2 * trackHeight));
yAxisScale.Mutate(g =>
{
g.Clear(Color.Black);
// loop over days
for (int d = 0; d < dayCount; d++)
{
var thisday = ((DateTimeOffset)startDate).AddDays(d);
if (thisday.Day == 1)
{
int nextRow = currentRow + 1;
for (int c = 0; c < colCount; c++)
{
bitmap[c, currentRow] = Color.Gray;
bitmap[c, nextRow] = Color.Gray;
}
for (int c = 0; c < scaleWidth; c++)
{
yAxisScale[c, currentRow + trackHeight] = Color.Gray;
yAxisScale[c, nextRow + trackHeight] = Color.Gray;
}
string month = monthNames[thisday.Month - 1];
if (thisday.Month == 1) // January
{
g.DrawText(thisday.Year.ToString(), stringFont, Color.White,
new PointF(0, nextRow + trackHeight + 1)); //draw time
g.DrawText(month, stringFont, Color.White,
new PointF(1, nextRow + trackHeight + 11)); //draw time
}
else
{
g.DrawText(month, stringFont, Color.White,
new PointF(1, nextRow + trackHeight + 1)); //draw time
}
currentRow += 2;
}
// get the exact date and time
LoggedConsole.WriteLine($"READING DAY {d + 1} of {dayCount}: {thisday.ToString()}");
// CREATE DAY LEVEL OUTPUT DIRECTORY for this day
string dateString = $"{thisday.Year}{thisday.Month:D2}{thisday.Day:D2}";
tuple = CsvTools.ReadCSVFile(csvFiles[d].FullName);
var arrays = tuple.Item2;
var redArray = arrays[redID];
var grnArray = arrays[grnID];
var bluArray = arrays[bluID];
// NormaliseMatrixValues the indices
redArray = DataTools.NormaliseInZeroOne(redArray, redIndexProps.NormMin, redIndexProps.NormMax);
grnArray = DataTools.NormaliseInZeroOne(grnArray, grnIndexProps.NormMin, grnIndexProps.NormMax);
bluArray = DataTools.NormaliseInZeroOne(bluArray, bluIndexProps.NormMin, bluIndexProps.NormMax);
for (int c = 0; c < colCount; c++)
{
for (int r = 0; r < dayPixelHeight; r++)
{
//transformedValue = Math.Sqrt(redArray[c]);
var transformedValue = redArray[c] * redArray[c];
int redVal = (int)Math.Round(transformedValue * 255);
if (redVal < 0)
{
redVal = 0;
}
else if (redVal > 255)
{
redVal = 255;
}
//transformedValue = Math.Sqrt(grnArray[c]);
transformedValue = grnArray[c] * grnArray[c]; // square the value
int grnVal = (int)Math.Round(transformedValue * 255);
if (grnVal < 0)
{
grnVal = 0;
}
else if (grnVal > 255)
{
grnVal = 255;
}
//transformedValue = Math.Sqrt(bluArray[c]);
transformedValue = bluArray[c] * bluArray[c]; // square the value
int bluVal = (int)Math.Round(transformedValue * 255);
if (bluVal < 0)
{
bluVal = 0;
}
else if (bluVal > 255)
{
bluVal = 255;
}
bitmap[c, currentRow + r] = Color.FromRgb((byte)redVal, (byte)grnVal, (byte)bluVal);
}
} // over all columns
currentRow += dayPixelHeight;
if (thisday.Day % 7 == 0)
{
for (int c = 0; c < colCount; c++)
{
bitmap[c, currentRow] = Color.Gray;
}
currentRow++;
}
} // over days
});
// draw on civil dawn and dusk lines
int startdayOfYear = ((DateTimeOffset)startDate).DayOfYear;
int endDayOfYear = ((DateTimeOffset)endDate).DayOfYear;
SunAndMoon.AddSunRiseSetLinesToImage(bitmap, arguments.BrisbaneSunriseDatafile.ToFileInfo(), startdayOfYear, endDayOfYear, dayPixelHeight);
// add the time scales
Image <Rgb24> timeBmp1 = ImageTrack.DrawTimeRelativeTrack(oneDay, graphWidth, trackHeight);
var imageList = new [] { timeBmp1, bitmap, timeBmp1 };
Image <Rgb24> compositeBmp1 = (Image <Rgb24>)ImageTools.CombineImagesVertically(imageList);
imageList = new [] { yAxisScale, compositeBmp1 };
Image <Rgb24> compositeBmp2 = (Image <Rgb24>)ImageTools.CombineImagesInLine(imageList);
// indices used for image
string indicesDescription = $"{redIndexProps.Name}|{grnIndexProps.Name}|{bluIndexProps.Name}";
string startString = $"{startDate.Value.Year}/{startDate.Value.Month}/{startDate.Value.Day}";
string endString = $"{endDate.Value.Year}/{endDate.Value.Month}/{endDate.Value.Day}";
string title = $"EASY: {arguments.FileStemName} From {startString} to {endString} Indices: {indicesDescription}";
Image <Rgb24> titleBar = ImageTrack.DrawTitleTrack(compositeBmp2.Width, trackHeight, title);
imageList = new [] { titleBar, compositeBmp2 };
compositeBmp2 = (Image <Rgb24>)ImageTools.CombineImagesVertically(imageList);
var outputFileName = Path.Combine(opDir.FullName, arguments.FileStemName + "." + rep + ".EASY.png");
compositeBmp2.Save(outputFileName);
} // Execute()
