public override int GetHashCode() { int hash = 7; CtmInputStream.IntFloat a = new CtmInputStream.IntFloat(); a.FloatValue = x; hash = 31 * hash + a.IntValue; hash = 31 * hash + this.gridIndex; return hash; }
public override int GetHashCode() { int hash = 7; CtmInputStream.IntFloat a = new CtmInputStream.IntFloat(); a.FloatValue = x; hash = 31 * hash + a.IntValue; hash = 31 * hash + this.gridIndex; return(hash); }
public static int GetArrayHash(float[] array) { if (array == null) { return(0); } int hc = array.Length; for (int i = 0; i < array.Length; ++i) { CtmInputStream.IntFloat a = new CtmInputStream.IntFloat(); a.FloatValue = array[i]; hc = unchecked (hc * 31 + a.IntValue); } return(hc); }
public void writePackedFloats(float[] data, int count, int size) { if (data.Length < count * size) { throw new Exception("The data to be written is smaller" + " as stated by other parameters. Needed: " + (count * size) + " Provided: " + data.Length); } // Allocate memory for interleaved array byte[] tmp = new byte[count * size * 4]; // Convert floats to an interleaved array for (int x = 0; x < count; ++x) { for (int y = 0; y < size; ++y) { CtmInputStream.IntFloat a = new CtmInputStream.IntFloat(); a.FloatValue = data[x * size + y]; interleavedInsert(a.IntValue, tmp, x + y * count, count * size); } } writeCompressedData(tmp); }
public void writeLittleFloat(float v) { CtmInputStream.IntFloat a = new CtmInputStream.IntFloat(); a.FloatValue = v; writeLittleInt(a.IntValue); }
public void writePackedFloats(float[] data, int count, int size) { if(data.Length < count * size) throw new Exception("The data to be written is smaller" + " as stated by other parameters. Needed: " + (count * size) + " Provided: " + data.Length); // Allocate memory for interleaved array byte[] tmp = new byte[count * size * 4]; // Convert floats to an interleaved array for (int x = 0; x < count; ++x) { for (int y = 0; y < size; ++y) { CtmInputStream.IntFloat a = new CtmInputStream.IntFloat(); a.FloatValue = data[x * size + y]; interleavedInsert(a.IntValue, tmp, x + y * count, count * size); } } writeCompressedData(tmp); }