public void Export_SomeExamplesInExampleLibrary_CheckThatAllFilesExist()
{
var exporter = new JpegExporter(400, 300);
var directory = Path.Combine(this.outputDirectory, "ExampleLibrary");
ExportTest.Export_FirstExampleOfEachExampleGroup_CheckThatAllFilesExist(exporter, directory, ".jpg");
}
public void ExportToFile()
{
var plotModel = CreateTestModel1();
var fileName = Path.Combine(this.outputDirectory, "Plot1.jpg");
JpegExporter.Export(plotModel, fileName, 400, 300);
Assert.IsTrue(File.Exists(fileName));
}
public void TestMultilineAlignment()
{
var plotModel = ExampleLibrary.RenderingCapabilities.DrawMultilineTextAlignmentRotation();
var fileName = Path.Combine(this.outputDirectory, "Text.png");
JpegExporter.Export(plotModel, fileName, 700, 700);
Assert.IsTrue(File.Exists(fileName));
}
public void ExportToStream()
{
var plotModel = CreateTestModel1();
var exporter = new JpegExporter(400, 300);
var stream = new MemoryStream();
exporter.Export(plotModel, stream);
Assert.IsTrue(stream.Length > 0);
}
public void ExportWithDifferentBackground()
{
var plotModel = CreateTestModel1();
plotModel.Background = OxyColors.Yellow;
var fileName = Path.Combine(this.outputDirectory, "Background_Yellow.jpg");
var exporter = new JpegExporter(400, 300);
using (var stream = File.OpenWrite(fileName))
{
exporter.Export(plotModel, stream);
}
Assert.IsTrue(File.Exists(fileName));
}
public void ExportWithResolution(double factor)
{
var resolution = (int)(96 * factor);
var plotModel = CreateTestModel1();
var directory = Path.Combine(this.outputDirectory, "Resolution");
Directory.CreateDirectory(directory);
var fileName = Path.Combine(directory, $"Resolution{resolution}.jpg");
var exporter = new JpegExporter((int)(400 * factor), (int)(300 * factor), resolution);
using (var stream = File.OpenWrite(fileName))
{
exporter.Export(plotModel, stream);
}
Assert.IsTrue(File.Exists(fileName));
}
public void export(AxMapControl MapCtrl, Form hwin)//导出成图片
{
try
{
SaveFileDialog sfd = new SaveFileDialog();
sfd.Filter = "(*.tif)|*.tif|(*.jpeg)|*.jpeg|(*.pdf)|*.pdf|(*.bmp)|*.bmp";
if (sfd.ShowDialog(hwin) == DialogResult.OK)
{
IExporter pExport = null;
if (1 == sfd.FilterIndex)
{
pExport = new TiffExporter() as IExporter;
pExport.ExportFileName = sfd.FileName;
}
else if (2 == sfd.FilterIndex)
{
pExport = new JpegExporter() as IExporter;
pExport.ExportFileName = sfd.FileName;
}
else if (3 == sfd.FilterIndex)
{
pExport = new PDFExporter() as IExporter;
pExport.ExportFileName = sfd.FileName;
}
else if (4 == sfd.FilterIndex)
{
pExport = new DibExporter() as IExporter; pExport.ExportFileName = sfd.FileName;
}
short res = 96;
pExport.Resolution = res;
tagRECT exportRECT = MapCtrl.ActiveView.ExportFrame;
IEnvelope pENV = new EnvelopeClass();
pENV.PutCoords(exportRECT.left, exportRECT.top, exportRECT.right, exportRECT.bottom);
pExport.PixelBounds = pENV;
int Hdc = pExport.StartExporting();
IEnvelope pVisibleBounds = null;
ITrackCancel pTrack = null;
MapCtrl.ActiveView.Output(Hdc, (int)pExport.Resolution, ref exportRECT, pVisibleBounds, pTrack);
Application.DoEvents();
pExport.FinishExporting();
}
}
catch { }
}
public void ExportWithQuality(int quality)
{
var plotModel = CreateTestModel1();
var directory = Path.Combine(this.outputDirectory, "Quality");
Directory.CreateDirectory(directory);
var exporter = new JpegExporter {
Width = 400, Height = 300, Quality = quality
};
var fileName = Path.Combine(directory, $"Quality_{quality}.jpg");
using (var stream = File.OpenWrite(fileName))
{
exporter.Export(plotModel, stream);
}
Assert.IsTrue(File.Exists(fileName));
}
public void LargeImageTest(bool interpolate)
{
// this is a test of the DrawImage function; don't add pointless backgrounds to your plots
var plotModel = CreateTestModel1();
var pixelData = new OxyColor[5, 5];
for (int i = 0; i < pixelData.GetLength(0); i++)
{
for (int j = 0; j < pixelData.GetLength(1); j++)
{
pixelData[i, j] = OxyColor.FromArgb(255, 128, (byte)((i * 255) / pixelData.GetLength(0)), (byte)((j * 255) / pixelData.GetLength(1)));
}
}
var oxyImage = OxyImage.Create(pixelData, ImageFormat.Png);
var imageAnnotation = new ImageAnnotation()
{
ImageSource = oxyImage,
X = new PlotLength(-1, PlotLengthUnit.RelativeToViewport),
Y = new PlotLength(-1, PlotLengthUnit.RelativeToViewport),
Width = new PlotLength(3, PlotLengthUnit.RelativeToViewport),
Height = new PlotLength(3, PlotLengthUnit.RelativeToViewport),
HorizontalAlignment = HorizontalAlignment.Left,
VerticalAlignment = VerticalAlignment.Top,
Interpolate = interpolate
};
plotModel.Annotations.Add(imageAnnotation);
var fileName = Path.Combine(this.outputDirectory, $"LargeImage{(interpolate ? "Interpolated" : "Pixelated")}.jpg");
var exporter = new JpegExporter(400, 300);
using (var stream = File.OpenWrite(fileName))
{
exporter.Export(plotModel, stream);
}
Assert.IsTrue(File.Exists(fileName));
}
static void Main(string[] args)
{
var outputToFile = "test-oxyplot-static-export-file";
var outputExportStreamOOP = "test-oxyplot-export-stream";
var width = 1024;
var height = 768;
var resolutions = new[] { 72d, 96d, 182d };
var model = BuildPlotModel();
foreach (var resolution in resolutions)
{
// export to file using static methods
PngExporter.Export(model, $"{outputToFile}{resolution}.png", width, height, resolution);
// export using the instance methods
using (var stream = new MemoryStream())
{
var pngExporter = new PngExporter(width, height, resolution);
pngExporter.Export(model, stream);
System.IO.File.WriteAllBytes($"{outputExportStreamOOP}{resolution}.png", stream.ToArray());
}
model.Background = OxyColors.White;
// export to file using static methods
JpegExporter.Export(model, $"{outputToFile}{resolution}.jpg", width, height, resolution);
// export using the instance methods
using (var stream = new MemoryStream())
{
var jpegExporter = new JpegExporter(width, height, resolution);
jpegExporter.Export(model, stream);
System.IO.File.WriteAllBytes($"{outputExportStreamOOP}{resolution}.jpg", stream.ToArray());
}
}
}
public async Task <string> PrepareHistogram(List <int> relayNos, Func <Step, Task> stepHandler = null)
{
await stepHandler(Step.RetrievingData);
var minutesInBucket = 6;
var bucketsCount = 24 * 60 / minutesInBucket;
var buckets = new int[relayNos.Count, bucketsCount];
var relayNumberInChart = 0;
foreach (var relayNo in relayNos)
{
var samplesForRelay = Database.Instance.GetSamplesForRelay(relayNo);
var formerSample = new RelaySample(relayNo, false);
foreach (var sample in samplesForRelay)
{
if (sample.CanSampleBeSquashed(formerSample))
{
continue;
}
// If current sample has positive state, but former doesn't, then this
// marks activation and no samples go to buckets. What's important here is
// deactivation - in such case we have to fill buckets accordingly.
if (sample.State || !formerSample.State)
{
formerSample = sample;
continue;
}
var startDateTime = formerSample.Date;
var endDateTime = sample.Date;
var startingDay = startDateTime.Date;
var endingDay = endDateTime.Date;
var startingBucket = (int)startDateTime.TimeOfDay.TotalMinutes / minutesInBucket;
var endingBucket = (int)endDateTime.TimeOfDay.TotalMinutes / minutesInBucket;
var fullDaysInBetween = (int)(endingDay - startingDay).TotalDays - 1;
// Yup, fullDaysInBetween can have value -1.
if (fullDaysInBetween == -1)
{
// Same day for turning on and off
for (var i = startingBucket; i <= endingBucket; i++)
{
buckets[relayNumberInChart, i]++;
}
}
else
{
for (var i = startingBucket; i < bucketsCount; i++)
{
buckets[relayNumberInChart, i]++;
}
if (fullDaysInBetween > 0)
{
for (var i = 0; i < bucketsCount; i++)
{
buckets[relayNumberInChart, i] += fullDaysInBetween;
}
}
for (var i = 0; i < endingBucket; i++)
{
buckets[relayNumberInChart, i]++;
}
}
formerSample = sample;
}
relayNumberInChart++;
}
await stepHandler(Step.CreatingPlot);
var plotModel = new PlotModel {
Title = "Histogram"
};
plotModel.Background = OxyColors.White;
plotModel.Axes.Add(new LinearAxis()
{
Position = AxisPosition.Bottom,
MajorGridlineStyle = LineStyle.Solid,
Minimum = 0,
Maximum = bucketsCount,
MaximumPadding = 0,
MinimumPadding = 0,
LabelFormatter = value => TimeSpan.FromMinutes(minutesInBucket * value).ToString(@"h\:mm"),
});
plotModel.Axes.Add(new LinearAxis()
{
Position = AxisPosition.Left,
MajorGridlineStyle = LineStyle.Dot,
Minimum = 0,
Maximum = buckets.Cast <int>().Max() + 1
});
var legend = new OxyPlot.Legends.Legend
{
LegendTitle = "Legenda"
};
plotModel.Legends.Add(legend);
for (var j = 0; j < relayNos.Count; j++)
{
var serie = new LineSeries
{
Title = Globals.Relays[relayNos[j]].FriendlyName
};
for (var i = 0; i < bucketsCount; i++)
{
serie.Points.Add(new DataPoint(i, buckets[j, i]));
}
plotModel.Series.Add(serie);
}
var chartFile = "histogram.jpg";
await stepHandler(Step.RenderingImage);
using (var stream = File.Create(chartFile))
{
var pngExporter = new JpegExporter(1300, 800, quality: 100);
pngExporter.Export(plotModel, stream);
}
return(chartFile);
}
//������ͼƬ
public void export(AxMapControl MapCtrl, Form hwin)
{
try
{
SaveFileDialog sfd = new SaveFileDialog();
sfd.Filter = "(*.tif)|*.tif|(*.jpeg)|*.jpeg|(*.pdf)|*.pdf|(*.bmp)|*.bmp";
if (sfd.ShowDialog(hwin) == DialogResult.OK)
{
IExporter pExport = null;
if (1 == sfd.FilterIndex)
{
pExport = new TiffExporter() as IExporter;
pExport.ExportFileName = sfd.FileName;
}
else if (2 == sfd.FilterIndex)
{
pExport = new JpegExporter() as IExporter;
pExport.ExportFileName = sfd.FileName;
}
else if (3 == sfd.FilterIndex)
{
pExport = new PDFExporter() as IExporter;
pExport.ExportFileName = sfd.FileName;
}
else if (4 == sfd.FilterIndex)
{
pExport = new DibExporter() as IExporter; pExport.ExportFileName = sfd.FileName;
}
short res = 96;
pExport.Resolution = res;
tagRECT exportRECT = MapCtrl.ActiveView.ExportFrame;
IEnvelope pENV = new EnvelopeClass();
pENV.PutCoords(exportRECT.left, exportRECT.top, exportRECT.right, exportRECT.bottom);
pExport.PixelBounds = pENV;
int Hdc = pExport.StartExporting();
IEnvelope pVisibleBounds = null;
ITrackCancel pTrack = null;
MapCtrl.ActiveView.Output(Hdc, (int)pExport.Resolution, ref exportRECT, pVisibleBounds, pTrack);
Application.DoEvents();
pExport.FinishExporting();
}
}
catch { }
}
