private void button2_Click(object sender, EventArgs e) { foreach (var i in listBox1.Items) { String f = (string)i; string f0 = System.IO.Path.GetDirectoryName(f) + System.IO.Path.DirectorySeparatorChar + System.IO.Path.GetFileNameWithoutExtension(f) + "_corr.sgy"; SEGYFile s0 = new SEGYFile(); if (s0.Open(f) == 0) { break; } SEGYFile s1 = new SEGYFile(); if (s1.Open(f0) == 0) { s0.Close(); break; } s0.ReadFileHeader(); s1.Write(s0.FileHeader.Copy()); while (s0.ReadNextTrace()) { SEGYTrace t = s0.currentTrace.Copy(); short waterDepthMsec = t.TraceHeader.delayRecordingTimeMsec; t.TraceHeader.delayRecordingTimeMsec = 0; //t.TraceHeader.waterDepthAtSource = (int)waterDepthMsec; s1.Write(t); } s0.Close(); s1.Close(); } }
private void button2_Click(object sender, EventArgs e) { foreach (var i in listBox1.Items) { String f = (string)i; string f0 = System.IO.Path.GetDirectoryName(f) + System.IO.Path.DirectorySeparatorChar + System.IO.Path.GetFileNameWithoutExtension(f) + ".gps"; SEGYFile s0 = new SEGYFile(); if (s0.Open(f) == 0) { break; } var s1 = File.CreateText(f0); if (s1 == null) { break; } s0.ReadFileHeader(); while (s0.ReadNextTrace()) { SEGYTrace t = s0.currentTrace; if (t.TraceHeader.traceNumberWithinOriginalFieldRecord == 1) { s1.WriteLine(t.timeTracedRecorded.ToString(), " ", t.sourcePositionX.ToString(), " ", t.sourcePositionY.ToString()); } } s0.Close(); s1.Close(); } }
private void button2_Click(object sender, EventArgs e) { foreach (var i in listBox1.Items) { String f = (string)i; string f0 = System.IO.Path.GetDirectoryName(f) + System.IO.Path.DirectorySeparatorChar + System.IO.Path.GetFileNameWithoutExtension(f) + "_corr.sgy"; SEGYFile s0 = new SEGYFile(); if (s0.Open(f) == 0) { break; } SEGYFile s1 = new SEGYFile(); if (s1.Open(f0) == 0) { s0.Close(); break; } s0.ReadFileHeader(); var fh = s0.FileHeader.Copy(); fh.SetFileHeader(0, 39, "C39 File processed by FixOBSSEGY Sept/2019"); s1.Write(fh); while (s0.ReadNextTrace()) { if (s0.currentTrace.TraceHeader.numberOfSamplesInTrace < 1000 || s0.currentTrace.TraceHeader.numberOfSamplesInTrace > 60000) { break; } if (s0.currentTrace.timeTracedRecorded < new DateTime(1950, 1, 1)) { break; } SEGYTrace t = s0.currentTrace.Copy(); if (checkBoxSwitch.Checked) { var s = t.TraceHeader.sourceCoordinateX; t.TraceHeader.sourceCoordinateX = t.TraceHeader.sourceCoordinateY; t.TraceHeader.sourceCoordinateY = s; s = t.TraceHeader.groupCoordinateX; t.TraceHeader.groupCoordinateX = t.TraceHeader.groupCoordinateY; t.TraceHeader.groupCoordinateY = s; } if (checkBoxlldec.Checked) { t.TraceHeader.coordinateUnits = 3; } if (checkBoxllsa.Checked) { t.TraceHeader.coordinateUnits = 2; } s1.Write(t); } s0.Close(); s1.Close(); } }
private void button1_Click(object sender, EventArgs e) { this.openFileDialog1.ShowDialog(); sf = new SEGYFile(); sf.Open(this.openFileDialog1.FileName); sf.ReadAllTraces(); int stophere = 1; this.fastLine1.Add(sf.Traces[0].Data); this.numericUpDown1.Maximum = Convert.ToDecimal(sf.Traces.Count - 1); }
private void button1_Click(object sender, EventArgs e) { this.openFileDialog1.Title = "Load SEGY rev 1 files"; if (this.openFileDialog1.ShowDialog() != System.Windows.Forms.DialogResult.OK) { return; } for (int i = 0; i < this.openFileDialog1.FileNames.Length; i++) { string f = this.openFileDialog1.FileNames[i]; SEGYlib.SEGYFile s = new SEGYFile(); s.Open(f); if (s.isSEGY()) { listBox1.Items.Add(f); } s.Close(); } }
private void button1_Click(object sender, EventArgs e) { openFileDialog1.Title = "open input SEGY files"; if (openFileDialog1.ShowDialog() != System.Windows.Forms.DialogResult.OK) { return; } listBox1.Items.Clear(); var sf = new SEGYFile(); foreach (var f in openFileDialog1.FileNames) { sf.Open(f); if (sf.isSEGY()) { listBox1.Items.Add(f); } sf.Close(); } }
private void runToolStripMenuItem_Click(object sender, EventArgs e) { foreach (string f in listBox1.Items) { fseg = new SEGYFile(); fseg.Open(f); fseg.ReadFileHeader(); SEGYFile fn = new SEGYFile(); string fnn = f.Replace(".sgy", "_clipped.sgy"); //create new filename if (System.IO.File.Exists(fnn)) { System.IO.File.Delete(fnn); } fn.Open(fnn); fn.FileHeader = fseg.FileHeader.Copy(); fn.Write(fn.FileHeader); while (fseg.ReadNextTrace()) { if (fseg.currentTrace.TraceHeader.yearDataRecorded != 2001 || fseg.currentTrace.TraceHeader.dayOfYear > 366) { int i = 0; break; } // set 1140 thru 1222 to zero in trace block ( las 82 entries ) byte[] buff = fseg.currentTrace.TraceData.TraceDataBuffer; // since 4 byte words for (int i = buff.Length - 82 * 4; i < buff.Length; i++) { buff[i] = 0; } fn.Write(fseg.currentTrace); } fn.Close(); fseg.Close(); } }
private void openToolStripMenuItem_Click(object sender, EventArgs e) { this.openFileDialog1.Title = "Open SEGY File"; if (this.openFileDialog1.ShowDialog() != System.Windows.Forms.DialogResult.OK) { return; } f = new SEGYFile(); currentTraceNumber = 0; if (f.Open(this.openFileDialog1.FileName) == 0) { return; } if (f.FileHeader.isSEGYFileHeaderAscii) { checkBoxIsEBCDIC.Checked = false; } refreshFileheader(); //read first trace f.ReadNextTrace(); refreshTraceHeader(); }
private void scanFile() { if (this.listBox1.SelectedIndex < 0) { return; } string f = (string)listBox1.SelectedItem; SEGYFile s = new SEGYFile(); s.Open(f); s.Traces = new List <SEGYlib.SEGYTrace>(); s.ReadFileHeader(); int c = 0; bool flip = true; l1norms = new System.Collections.ArrayList(); while (s.ReadNextTrace()) { SEGYTrace tr = s.currentTrace; // calculate l1 norm of trace enegy //double l1 = 0; //for (int i = 0; i < tr.TraceData.Data.Length; i++) l1 += Math.Abs(tr.TraceData.Data[i]); //l1norms.Add(l1); // tr.TraceData.TraceDataBuffer = null; s.Traces.Add(tr); c++; if (c % 100 == 0) { toolStripStatusLabel1.Text = "Reading " + f + " "; if (flip) { toolStripStatusLabel1.Text += "\\"; flip = false; } else { toolStripStatusLabel1.Text += "/"; flip = true; } Application.DoEvents(); } } //s.ReadAllTraceHeaders(); int tmin = s.Traces[0].TraceHeader.numberOfSamplesInTrace; int tmax = tmin; int delaymin = s.Traces[0].TraceHeader.delayRecordingTimeMsec; int delaymax = Convert.ToInt32(delaymin + s.Traces[0].TraceHeader.numberOfSamplesInTrace * s.Traces[0].TraceHeader.sampleIntervalUsec / 1e3); for (int i = 0; i < s.Traces.Count; i++) { int ti = s.Traces[i].TraceHeader.numberOfSamplesInTrace; if (ti < tmin) { tmin = ti; } if (ti > tmax) { tmax = ti; } if (s.Traces[i].TraceHeader.delayRecordingTimeMsec < delaymin) { delaymin = s.Traces[i].TraceHeader.delayRecordingTimeMsec; } int tm = Convert.ToInt32(s.Traces[i].TraceHeader.delayRecordingTimeMsec + s.Traces[i].TraceHeader.numberOfSamplesInTrace * s.Traces[i].TraceHeader.sampleIntervalUsec / 1e3); if (tm > delaymax) { delaymax = tm; } } s.Close(); this.toolStripStatusLabel1.Text = "Trace length varies from " + tmin.ToString() + " to " + tmax.ToString(); maxTraceLength = tmax; minTime = delaymin; maxTime = delaymax; }
private void fixTraceLengths(string f, string g) { // setup datum trasformation DataRow r = datumDT.Rows[datum_number]; //find ellipsoid parameters int ellipse_number = ellipsoidDT.Rows.Count - 1; // last entry is wgs 84 for (int i = 0; i < ellipsoidDT.Rows.Count - 1; i++) { if (String.Compare(r[1].ToString(), ellipsoidDT.Rows[i][0].ToString()) == 0) { ellipse_number = i; break; } } double a_in = Convert.ToDouble(ellipsoidDT.Rows[ellipse_number][1]); double fi_in = Convert.ToDouble(ellipsoidDT.Rows[ellipse_number][2]); double dX = Convert.ToDouble(r[2]); double dY = Convert.ToDouble(r[3]); double dZ = Convert.ToDouble(r[4]); double a_out = Convert.ToDouble(ellipsoidDT.Rows[ellipsoidDT.Rows.Count - 1][1]); double fi_out = Convert.ToDouble(ellipsoidDT.Rows[ellipsoidDT.Rows.Count - 1][2]); NETGeographicLib.Geocentric fw = new NETGeographicLib.Geocentric(a_in, 1.0 / fi_in); NETGeographicLib.Geocentric rw = new NETGeographicLib.Geocentric(a_out, 1.0 / fi_out); SEGYlib.SEGYFile sf = new SEGYFile(); sf.Open(f); // open an existing SEGY file SEGYlib.SEGYFile sf2 = new SEGYlib.SEGYFile(); // create a new SEGY file sf2.Open(g); sf2.FileHeader = sf.FileHeader.Copy(); // copy the input trace header if (checkBox2.Checked) { sf2.FileHeader.numberOfSamplesPerDataTrace = Convert.ToUInt16((maxTime - minTime) * 1e3 / sf2.FileHeader.sampleIntervalInMicroseconds); } if (checkBox3.Checked) { sf2.FileHeader.SetFileHeader(0, 36, "C36 Positions coverted to Lat/Lon : " + DateTime.Now.ToShortDateString()); } sf2.Write(sf2.FileHeader); // write out the header int c = 0; bool flip = true; System.IO.StreamWriter tw = null; if (checkBox1.Checked) { // create a zone report string z = System.IO.Path.ChangeExtension(g, ".prj"); tw = System.IO.File.CreateText(z); } while (sf.ReadNextTrace()) { SEGYlib.SEGYTrace tr = sf.currentTrace; SEGYlib.SEGYTrace newTr = tr.Copy(); if (checkBox2.Checked) { // pad top and bottom of trace maxTraceLength = Convert.ToInt32((maxTime - minTime) * 1e3 / tr.TraceHeader.sampleIntervalUsec); // delay offset int delayoffset = (int)((newTr.TraceHeader.delayRecordingTimeMsec - minTime) * 1e3 / (double)newTr.TraceHeader.sampleIntervalUsec); // pad top of trace newTr.Resize(maxTraceLength, delayoffset); newTr.TraceHeader.delayRecordingTimeMsec = (short)minTime; } if (checkBox1.Checked || checkBoxDatum.Checked || checkBox3.Checked) { // switch to UTM if (tr.isLatLon) { double lon = tr.sourcePositionX; double lat = tr.sourcePositionY; if (checkBoxDatum.Checked) { double h = 0; double X, Y, Z; fw.Forward(lat, lon, 0.0, out X, out Y, out Z); X += dX; Y += dY; Z += dZ; rw.Reverse(X, Y, Z, out lat, out lon, out h); newTr.sourcePositionX = lon; newTr.sourcePositionY = lat; } if (checkBox1.Checked) { // convert to geocentric double x, y; int setzone, zone; bool north; setzone = Convert.ToInt32(this.numericUpDown1.Value); NETGeographicLib.UTMUPS.Forward(lat, lon, out zone, out north, out x, out y, setzone, false); tw.WriteLine(lat.ToString() + " " + lon.ToString() + " " + x.ToString() + " " + y.ToString() + " " + zone.ToString()); newTr.TraceHeader.coordinateUnits = 1; newTr.TraceHeader.scalarToBeAppliedToAllCoordinates = -100; newTr.sourcePositionY = y; newTr.sourcePositionX = x; } } else { int setzone, zone; bool north; double lat, lon; double x = tr.sourcePositionX; double y = tr.sourcePositionY; if (x > 0 && x < 1000000.0) { setzone = Convert.ToInt32(this.numericUpDown1.Value); NETGeographicLib.UTMUPS.Reverse(setzone, true, x, y, out lon, out lat, false); } else { lon = 0; lat = 0; } newTr.TraceHeader.coordinateUnits = 2; newTr.TraceHeader.scalarToBeAppliedToAllCoordinates = -100; newTr.sourcePositionY = lon; newTr.sourcePositionX = lat; if (checkBoxDatum.Checked) { double h = 0; double X, Y, Z; fw.Forward(lat, lon, 0.0, out X, out Y, out Z); X += dX; Y += dY; Z += dZ; rw.Reverse(X, Y, Z, out lat, out lon, out h); newTr.sourcePositionX = lon; newTr.sourcePositionY = lat; } } } sf2.Write(newTr); c++; if (c >= 4949) { int ibreak = 0; } if (c % 100 == 0) { toolStripStatusLabel1.Text = "Writing " + g + " "; if (flip) { toolStripStatusLabel1.Text += "\\"; flip = false; } else { toolStripStatusLabel1.Text += "/"; flip = true; } Application.DoEvents(); } } if (tw != null) { tw.Close(); } sf.Close(); sf2.Close(); }
private void button2_Click(object sender, EventArgs e) { foreach (var i in listBox1.Items) { String f = (string)i; string f0 = System.IO.Path.GetDirectoryName(f) + System.IO.Path.DirectorySeparatorChar + System.IO.Path.GetFileNameWithoutExtension(f) + "_corr.sgy"; if (File.Exists(f0)) { File.Delete(f0); } SEGYFile s0 = new SEGYFile(); if (s0.Open(f) == 0) { break; } SEGYFile s1 = new SEGYFile(); if (s1.Open(f0) == 0) { s0.Close(); break; } s0.ReadFileHeader(); s1.Write(s0.FileHeader.Copy()); int count = 0; toolStripStatusLabel1.Text = "Writing " + f0 + " : "; while (s0.ReadNextTrace()) { SEGYTrace t = s0.currentTrace.Copy(); // seismic data if (t.TraceHeader.traceIdentificationCode != 1) { continue; } // find water depth of source in meters var srcDepth = Convert.ToDouble(t.TraceHeader.sourceDepthBelowSurface); var fac = t.TraceHeader.scalarForAllElevationsAndDepths; if (fac < 0) { srcDepth /= -fac; } else if (fac > 0) { srcDepth *= fac; } // calculate the corresponding time delay in seconds var twt = 2 * srcDepth / 1500; // assume vw = 1500 m/s var twtmsec = twt * 1e3; t.TraceHeader.delayRecordingTimeMsec = Convert.ToInt16(Math.Floor(twtmsec)); var remainder = twtmsec - t.TraceHeader.delayRecordingTimeMsec; // corresponding number of samples to pad trace for fractional delay times var nsamp = Convert.ToInt32(remainder * 1e3 / t.TraceHeader.sampleIntervalUsec); var data = t.TraceData.Data; // mute start of trace if (this.checkBox1.Checked) { int mutedelay = Convert.ToInt32(Convert.ToDouble(this.numericUpDown1.Value) * 1e3 / Convert.ToDouble(t.TraceHeader.sampleIntervalUsec)); for (int ii = 0; ii < mutedelay; ii++) { data[ii] = 0; } } var datanew = new double[data.Length]; // should be initializes to zero Array.Copy(data, 0, datanew, nsamp, data.Length - nsamp); t.TraceData.Data = datanew; s1.Write(t); count++; if (count % 100 == 0) { toolStripStatusLabel2.Text = count.ToString(); Application.DoEvents(); } } s0.Close(); s1.Close(); } toolStripStatusLabel1.Text = "."; toolStripStatusLabel2.Text = "."; }