private void TryOpen(string filename, RWFlag rwFlag) { try { ErdasImageFile image = new ErdasImageFile(filename, rwFlag); } catch (System.Exception exc) { Data.Output.WriteLine(exc.Message); throw; } }
private void TryCtor <T>(string imagePath, RWFlag rwFlag) where T : IPixel, new() { ErdasImageFile image = null; try { image = new ErdasImageFile(imagePath, rwFlag); OutputRaster <T> raster = new OutputRaster <T>(image); } catch (System.Exception exc) { Data.Output.WriteLine(exc.Message); throw; } finally { if (image != null) { image.Close(); } } }
RWFlag mode; // file open mode: Read or Write /// <summary> /// Create a file given specs /// </summary> public ErdasImageFile(string filename, Dimensions dimensions, int bandCount, System.TypeCode bandType, IMetadata metadata) { // set instance variables this.open = false; this.mode = RWFlag.Write; this.dimensions = dimensions; this.bandType = bandType; this.bandCount = bandCount; this.currPixel = 0; this.totalPixels = dimensions.Rows * dimensions.Columns; this.metadata = metadata; // if filename does not end in .gis or .lan throw exception string extension = Path.GetExtension(filename).ToLower(); if (!(extension.Equals(".gis")) && !(extension.Equals(".lan"))) { throw new System.ApplicationException("Erdas file must have either GIS or LAN as extension"); } // if dimensions are messed up throw exception if ((dimensions.Rows < 1) || (dimensions.Columns < 1)) { throw new System.ApplicationException("Erdas file given invalid dimensions"); } // if bandCount messed up throw exception if ((bandCount < 1) || (bandCount > 0xffff)) { throw new System.ApplicationException("Erdas file given invalid band count"); } // more bandCount checking if (extension.Equals(".gis")) { if (bandCount > 1) { throw new System.ApplicationException("Erdas GIS files cannot support multiband images"); } if (bandType != System.TypeCode.Byte) { throw new System.ApplicationException("Erdas GIS files only suupport byte for bandtype"); } } // if bandType not System.Byte or System.UInt16 throw exception if (bandType == System.TypeCode.Byte) { this.bandSize = 1; } else if (bandType == System.TypeCode.UInt16) { this.bandSize = 2; } else { throw new System.ApplicationException("Erdas file given unsupported band type"); } // open file for writing this.file = new FileStream(filename, FileMode.OpenOrCreate); this.fileWriter = new BinaryWriter(this.file); this.open = true; // write header (using metadata whenever possible) try { // sentinel byte[] sentinel = new byte[6]; sentinel[0] = (byte)'H'; sentinel[1] = (byte)'E'; sentinel[2] = (byte)'A'; sentinel[3] = (byte)'D'; sentinel[4] = (byte)'7'; sentinel[5] = (byte)'4'; this.fileWriter.Write(sentinel); // packing System.UInt16 ipack; if (bandType == System.TypeCode.Byte) { ipack = 0; } else { ipack = 2; } this.fileWriter.Write(ipack); // nbands System.UInt16 nbands = (System.UInt16)bandCount; this.fileWriter.Write(nbands); // unused for (int i = 0; i < 6; i++) { this.fileWriter.Write((byte)0); } // icols System.UInt32 icols = (System.UInt32)dimensions.Columns; this.fileWriter.Write(icols); // irows System.UInt32 irows = (System.UInt32)dimensions.Rows; this.fileWriter.Write(irows); // xstart System.Int32 xstart = 0; if ((metadata != null) && (metadata.TryGetValue <System.Int32>(RASTER_ULX, ref xstart))) { } this.fileWriter.Write(xstart); // ystart System.Int32 ystart = 0; if ((metadata != null) && (metadata.TryGetValue <System.Int32>(RASTER_ULY, ref ystart))) { } this.fileWriter.Write(ystart); // unused for (int i = 0; i < 56; i++) { this.fileWriter.Write((byte)0); } // maptyp System.UInt16 maptyp = 99; // 99 means NONE string projection = null; if ((metadata != null) && (metadata.TryGetValue <string>(PROJECTION, ref projection))) { int projNum = Projections.find(projection); if (projNum != -1) { maptyp = (System.UInt16)projNum; } } this.fileWriter.Write(maptyp); // nclass : calc if needed but never has been in past System.UInt16 nclass = 0; this.fileWriter.Write(nclass); // unused for (int i = 0; i < 14; i++) { this.fileWriter.Write((byte)0); } // iautyp : first need xcell and ycell and then acre System.Single xcell = 0; if ((metadata != null) && (metadata.TryGetValue <System.Single>(X_SCALE, ref xcell))) { } if (maptyp == 99) { xcell = 0; } System.Single ycell = 0; if ((metadata != null) && (metadata.TryGetValue <System.Single>(Y_SCALE, ref ycell))) { } if (maptyp == 99) { ycell = 0; } System.UInt16 iautyp = 0; System.Single acre = 0; switch (maptyp) // iautyp depends upon maptyp indirectly { case 0: // Lat/Long -> dist unit == degrees iautyp = 0; // default to no area unit break; case 2: // State Plane -> dist unit == feet iautyp = 1; // default to acres acre = xcell * ycell; // acre = sq.feet at this pt // so now convert to acres acre = (float)((double)acre * 0.0000229568411386593); break; default: // dist unit == meters iautyp = 2; // default to hectares acre = xcell * ycell; // acre = sq.meters at this pt // so now convert to hectares acre *= 0.0001f; break; } this.fileWriter.Write(iautyp); // acre this.fileWriter.Write(acre); // xmap System.Single xmap = 0; if ((metadata != null) && (metadata.TryGetValue <System.Single>(WORLD_ULX, ref xmap))) { } this.fileWriter.Write(xmap); // ymap System.Single ymap = 0; if ((metadata != null) && (metadata.TryGetValue <System.Single>(WORLD_ULY, ref ymap))) { } this.fileWriter.Write(ymap); // xcell this.fileWriter.Write(xcell); // ycell this.fileWriter.Write(ycell); // now create pixel data as zeroes for now // many nested for loops avoids index calc overflows for (int row = 0; row < dimensions.Rows; row++) { for (int bandNum = 0; bandNum < this.bandCount; bandNum++) { for (int col = 0; col < dimensions.Columns; col++) { for (int byteNum = 0; byteNum < this.bandSize; byteNum++) { this.fileWriter.Write((byte)0); } } } } } catch (System.Exception) { Close(); throw; } }
/// <summary> /// Open an existing file /// </summary> public ErdasImageFile(string filename, RWFlag mode) { this.open = false; this.mode = mode; // if filename does not end in .gis or .lan throw exception string extension = Path.GetExtension(filename).ToLower(); if (!(extension.Equals(".gis")) && !(extension.Equals(".lan"))) { throw new System.ApplicationException("Erdas file must have either GIS or LAN as extension"); } // open file this.file = new FileStream(filename, FileMode.Open); this.fileReader = new BinaryReader(this.file); this.open = true; try { // prepare to build metadata while reading Metadata metadata = new Metadata(); // Read Header // if not start with "HEAD74" throw exception byte[] sentinel = fileReader.ReadBytes(6); if ((sentinel[0] != (byte)'H') || (sentinel[1] != (byte)'E') || (sentinel[2] != (byte)'A') || (sentinel[3] != (byte)'D') || (sentinel[4] != (byte)'7') || (sentinel[5] != (byte)'4')) { throw new System.ApplicationException(filename + " is not an ERDAS 7.4 compatible image file"); } // packing System.UInt16 ipack = this.fileReader.ReadUInt16(); if ((ipack != 0) && (ipack != 2)) { throw new System.ApplicationException("Only 8 and 16 bit bands are supported by Erdas reader"); } // nbands System.UInt16 nbands = this.fileReader.ReadUInt16(); // unused byte[] unused = this.fileReader.ReadBytes(6); // icols System.UInt32 icols = this.fileReader.ReadUInt32(); // irows System.UInt32 irows = this.fileReader.ReadUInt32(); // xstart System.Int32 xstart = this.fileReader.ReadInt32(); metadata[RASTER_ULX] = xstart; // ystart System.Int32 ystart = this.fileReader.ReadInt32(); metadata[RASTER_ULY] = ystart; // unused unused = this.fileReader.ReadBytes(56); // maptyp System.UInt16 maptyp = this.fileReader.ReadUInt16(); string projection = Projections.find(maptyp); if (projection != null) { metadata[PROJECTION] = projection; } if (maptyp == 0) { metadata[SCALE_UNITS] = "degrees"; } else if (maptyp == 2) { metadata[SCALE_UNITS] = "feet"; } else { metadata[SCALE_UNITS] = "meters"; } // nclass : calc if needed but never has been in past System.UInt16 nclass = this.fileReader.ReadUInt16(); // unused unused = this.fileReader.ReadBytes(14); // iautyp System.UInt16 iautyp = this.fileReader.ReadUInt16(); // acre System.Single acre = this.fileReader.ReadSingle(); // xmap System.Single xmap = this.fileReader.ReadSingle(); metadata[WORLD_ULX] = xmap; // ymap System.Single ymap = this.fileReader.ReadSingle(); metadata[WORLD_ULY] = ymap; // xcell System.Single xcell = this.fileReader.ReadSingle(); metadata[X_SCALE] = xcell; // ycell System.Single ycell = this.fileReader.ReadSingle(); metadata[Y_SCALE] = ycell; // construct instance variables based upon hedaer info this.dimensions = new Dimensions((int)irows, (int)icols); if (ipack == 0) { this.bandType = System.TypeCode.Byte; this.bandSize = 1; } else // ipack == 2 due to earlier screening { this.bandType = System.TypeCode.UInt16; this.bandSize = 2; } this.bandCount = nbands; this.currPixel = 0; this.totalPixels = (int)irows * (int)icols; this.metadata = metadata; if (mode == RWFlag.Write) { this.fileReader.Close(); this.fileReader = null; // need to reopen stream - fileReader.Close() shuts it this.file = new FileStream(filename, FileMode.Open); this.fileWriter = new BinaryWriter(this.file); } } catch (System.Exception) { Close(); throw; } }
RWFlag mode; // file open mode: Read or Write /// <summary> /// Create a file given specs /// </summary> public ErdasImageFile(string filename, Dimensions dimensions, int bandCount, System.TypeCode bandType, IMetadata metadata) { // set instance variables this.open = false; this.mode = RWFlag.Write; this.dimensions = dimensions; this.bandType = bandType; this.bandCount = bandCount; this.currPixel = 0; this.totalPixels = dimensions.Rows*dimensions.Columns; this.metadata = metadata; // if filename does not end in .gis or .lan throw exception string extension = Path.GetExtension(filename).ToLower(); if (!(extension.Equals(".gis")) && !(extension.Equals(".lan"))) throw new System.ApplicationException("Erdas file must have either GIS or LAN as extension"); // if dimensions are messed up throw exception if ((dimensions.Rows < 1) || (dimensions.Columns < 1)) throw new System.ApplicationException("Erdas file given invalid dimensions"); // if bandCount messed up throw exception if ((bandCount < 1) || (bandCount > 0xffff)) throw new System.ApplicationException("Erdas file given invalid band count"); // more bandCount checking if (extension.Equals(".gis")) { if (bandCount > 1) throw new System.ApplicationException("Erdas GIS files cannot support multiband images"); if (bandType != System.TypeCode.Byte) throw new System.ApplicationException("Erdas GIS files only suupport byte for bandtype"); } // if bandType not System.Byte or System.UInt16 throw exception if (bandType == System.TypeCode.Byte) this.bandSize = 1; else if (bandType == System.TypeCode.UInt16) this.bandSize = 2; else throw new System.ApplicationException("Erdas file given unsupported band type"); // open file for writing this.file = new FileStream(filename,FileMode.OpenOrCreate); this.fileWriter = new BinaryWriter(this.file); this.open = true; // write header (using metadata whenever possible) try { // sentinel byte[] sentinel = new byte[6]; sentinel[0] = (byte) 'H'; sentinel[1] = (byte) 'E'; sentinel[2] = (byte) 'A'; sentinel[3] = (byte) 'D'; sentinel[4] = (byte) '7'; sentinel[5] = (byte) '4'; this.fileWriter.Write(sentinel); // packing System.UInt16 ipack; if (bandType == System.TypeCode.Byte) ipack = 0; else ipack = 2; this.fileWriter.Write(ipack); // nbands System.UInt16 nbands = (System.UInt16)bandCount; this.fileWriter.Write(nbands); // unused for (int i = 0; i < 6; i++) this.fileWriter.Write((byte)0); // icols System.UInt32 icols = (System.UInt32)dimensions.Columns; this.fileWriter.Write(icols); // irows System.UInt32 irows = (System.UInt32)dimensions.Rows; this.fileWriter.Write(irows); // xstart System.Int32 xstart = 0; if ((metadata != null) && (metadata.TryGetValue<System.Int32>(RASTER_ULX,ref xstart))) { } this.fileWriter.Write(xstart); // ystart System.Int32 ystart = 0; if ((metadata != null) && (metadata.TryGetValue<System.Int32>(RASTER_ULY,ref ystart))) { } this.fileWriter.Write(ystart); // unused for (int i = 0; i < 56; i++) this.fileWriter.Write((byte)0); // maptyp System.UInt16 maptyp = 99; // 99 means NONE string projection = null; if ((metadata != null) && (metadata.TryGetValue<string>(PROJECTION,ref projection))) { int projNum = Projections.find(projection); if (projNum != -1) maptyp = (System.UInt16)projNum; } this.fileWriter.Write(maptyp); // nclass : calc if needed but never has been in past System.UInt16 nclass = 0; this.fileWriter.Write(nclass); // unused for (int i = 0; i < 14; i++) this.fileWriter.Write((byte)0); // iautyp : first need xcell and ycell and then acre System.Single xcell = 0; if ((metadata != null) && (metadata.TryGetValue<System.Single>(X_SCALE,ref xcell))) { } if (maptyp == 99) xcell = 0; System.Single ycell = 0; if ((metadata != null) && (metadata.TryGetValue<System.Single>(Y_SCALE,ref ycell))) { } if (maptyp == 99) ycell = 0; System.UInt16 iautyp = 0; System.Single acre = 0; switch (maptyp) // iautyp depends upon maptyp indirectly { case 0: // Lat/Long -> dist unit == degrees iautyp = 0; // default to no area unit break; case 2: // State Plane -> dist unit == feet iautyp = 1; // default to acres acre = xcell * ycell; // acre = sq.feet at this pt // so now convert to acres acre = (float) ((double)acre * 0.0000229568411386593); break; default: // dist unit == meters iautyp = 2; // default to hectares acre = xcell * ycell; // acre = sq.meters at this pt // so now convert to hectares acre *= 0.0001f; break; } this.fileWriter.Write(iautyp); // acre this.fileWriter.Write(acre); // xmap System.Single xmap = 0; if ((metadata != null) && (metadata.TryGetValue<System.Single>(WORLD_ULX,ref xmap))) { } this.fileWriter.Write(xmap); // ymap System.Single ymap = 0; if ((metadata != null) && (metadata.TryGetValue<System.Single>(WORLD_ULY,ref ymap))) { } this.fileWriter.Write(ymap); // xcell this.fileWriter.Write(xcell); // ycell this.fileWriter.Write(ycell); // now create pixel data as zeroes for now // many nested for loops avoids index calc overflows for (int row = 0; row < dimensions.Rows; row++) for (int bandNum = 0; bandNum < this.bandCount; bandNum++) for (int col = 0; col < dimensions.Columns; col++) for (int byteNum = 0; byteNum < this.bandSize; byteNum++) this.fileWriter.Write((byte)0); } catch (System.Exception) { Close(); throw; } }
/// <summary> /// Open an existing file /// </summary> public ErdasImageFile(string filename, RWFlag mode) { this.open = false; this.mode = mode; // if filename does not end in .gis or .lan throw exception string extension = Path.GetExtension(filename).ToLower(); if (!(extension.Equals(".gis")) && !(extension.Equals(".lan"))) throw new System.ApplicationException("Erdas file must have either GIS or LAN as extension"); // open file this.file = new FileStream(filename,FileMode.Open); this.fileReader = new BinaryReader(this.file); this.open = true; try { // prepare to build metadata while reading Metadata metadata = new Metadata(); // Read Header // if not start with "HEAD74" throw exception byte[] sentinel = fileReader.ReadBytes(6); if ((sentinel[0] != (byte)'H') || (sentinel[1] != (byte)'E') || (sentinel[2] != (byte)'A') || (sentinel[3] != (byte)'D') || (sentinel[4] != (byte)'7') || (sentinel[5] != (byte)'4')) throw new System.ApplicationException(filename+" is not an ERDAS 7.4 compatible image file"); // packing System.UInt16 ipack = this.fileReader.ReadUInt16(); if ((ipack != 0) && (ipack != 2)) throw new System.ApplicationException("Only 8 and 16 bit bands are supported by Erdas reader"); // nbands System.UInt16 nbands = this.fileReader.ReadUInt16(); // unused byte[] unused = this.fileReader.ReadBytes(6); // icols System.UInt32 icols = this.fileReader.ReadUInt32(); // irows System.UInt32 irows = this.fileReader.ReadUInt32(); // xstart System.Int32 xstart = this.fileReader.ReadInt32(); metadata[RASTER_ULX] = xstart; // ystart System.Int32 ystart = this.fileReader.ReadInt32(); metadata[RASTER_ULY] = ystart; // unused unused = this.fileReader.ReadBytes(56); // maptyp System.UInt16 maptyp = this.fileReader.ReadUInt16(); string projection = Projections.find(maptyp); if (projection != null) metadata[PROJECTION] = projection; if (maptyp == 0) metadata[SCALE_UNITS] = "degrees"; else if (maptyp == 2) metadata[SCALE_UNITS] = "feet"; else metadata[SCALE_UNITS] = "meters"; // nclass : calc if needed but never has been in past System.UInt16 nclass = this.fileReader.ReadUInt16(); // unused unused = this.fileReader.ReadBytes(14); // iautyp System.UInt16 iautyp = this.fileReader.ReadUInt16(); // acre System.Single acre = this.fileReader.ReadSingle(); // xmap System.Single xmap = this.fileReader.ReadSingle(); metadata[WORLD_ULX] = xmap; // ymap System.Single ymap = this.fileReader.ReadSingle(); metadata[WORLD_ULY] = ymap; // xcell System.Single xcell = this.fileReader.ReadSingle(); metadata[X_SCALE] = xcell; // ycell System.Single ycell = this.fileReader.ReadSingle(); metadata[Y_SCALE] = ycell; // construct instance variables based upon hedaer info this.dimensions = new Dimensions((int)irows,(int)icols); if (ipack == 0) { this.bandType = System.TypeCode.Byte; this.bandSize = 1; } else // ipack == 2 due to earlier screening { this.bandType = System.TypeCode.UInt16; this.bandSize = 2; } this.bandCount = nbands; this.currPixel = 0; this.totalPixels = (int)irows * (int)icols; this.metadata = metadata; if (mode == RWFlag.Write) { this.fileReader.Close(); this.fileReader = null; // need to reopen stream - fileReader.Close() shuts it this.file = new FileStream(filename,FileMode.Open); this.fileWriter = new BinaryWriter(this.file); } } catch (System.Exception) { Close(); throw; } }