Bitmap in voller Seitenbreite im Thermo-Punktdrucker mit ESC / POS in Java drucken
Ich versuche, ein Bild mit einer Breite von 576 Pixeln in einem Thermodrucker zu drucken, der ESC-Befehle unterstützt. Das Problem besteht darin, dass ich mit dem Befehl "ESC *" zum Drucken von Bildbits nur Bilder mit einer Breite von 255 Pixeln drucken kann (wenn ich a verwende) 576 Pixel Bild einige Teile sind gedruckt und der Rest sind zufällige Symbole), in der Dokumentation heißt es, dass der Befehl maximal 255 Bytes wie folgt akzeptiert:
ESC * m nL nH d1Ödk
Name Specify bit image mode
Code ASCII ESC * m nL nHd1...dk
Hex. 1B 2A m nL nHd1...dk
Decimal 27 42 m nL nHd1...dk
Defined Region m = 0,1,32,33
0 ≤ nL ≤ 255
0 ≤ nH ≤ 3
0 ≤ d ≤ 255
So kann ich nicht ein Bild drucken, das die maximale Breite der Druckerseite (576 px) hat, ich habe diesen Code, der das Bild druckt:
public class ESCPOSApi {
private final byte[] INITIALIZE_PRINTER = new byte[]{0x1B,0x40};
private final byte[] PRINT_AND_FEED_PAPER = new byte[]{0x0A};
private final byte[] SELECT_BIT_IMAGE_MODE = new byte[]{(byte)0x1B, (byte)0x2A};
private final byte[] SET_LINE_SPACING = new byte[]{0x1B, 0x33};
private FileOutputStream printOutput;
public int maxBitsWidth = 255;
public ESCPOSApi(String device) {
try {
printOutput = new FileOutputStream(device);
} catch (FileNotFoundException ex) {
Logger.getLogger(ESCPOSApi.class.getName()).log(Level.SEVERE, null, ex);
}
}
private byte[] buildPOSCommand(byte[] command, byte... args) {
byte[] posCommand = new byte[command.length + args.length];
System.arraycopy(command, 0, posCommand, 0, command.length);
System.arraycopy(args, 0, posCommand, command.length, args.length);
return posCommand;
}
private BitSet getBitsImageData(BufferedImage image) {
int threshold = 127;
int index = 0;
int dimenssions = image.getWidth() * image.getHeight();
BitSet imageBitsData = new BitSet(dimenssions);
for (int y = 0; y < image.getHeight(); y++)
{
for (int x = 0; x < image.getWidth(); x++)
{
int color = image.getRGB(x, y);
int red = (color & 0x00ff0000) >> 16;
int green = (color & 0x0000ff00) >> 8;
int blue = color & 0x000000ff;
int luminance = (int)(red * 0.3 + green * 0.59 + blue * 0.11);
//dots[index] = (luminance < threshold);
imageBitsData.set(index, (luminance < threshold));
index++;
}
}
return imageBitsData;
}
public void printImage(BufferedImage image) {
try {
BitSet imageBits = getBitsImageData(image);
byte widthLSB = (byte)(image.getWidth() & 0xFF);
byte widthMSB = (byte)((image.getWidth() >> 16) & 0xFF);
// COMMANDS
byte[] selectBitImageModeCommand = buildPOSCommand(SELECT_BIT_IMAGE_MODE, (byte) 33, widthLSB, widthMSB);
byte[] setLineSpacing24Dots = buildPOSCommand(SET_LINE_SPACING, (byte) 24);
byte[] setLineSpacing30Dots = buildPOSCommand(SET_LINE_SPACING, (byte) 30);
printOutput.write(INITIALIZE_PRINTER);
printOutput.write(setLineSpacing24Dots);
int offset = 0;
while (offset < image.getHeight()) {
printOutput.write(selectBitImageModeCommand);
int imageDataLineIndex = 0;
byte[] imageDataLine = new byte[3 * image.getWidth()];
for (int x = 0; x < image.getWidth(); ++x) {
// Remember, 24 dots = 24 bits = 3 bytes.
// The 'k' variable keeps track of which of those
// three bytes that we're currently scribbling into.
for (int k = 0; k < 3; ++k) {
byte slice = 0;
// A byte is 8 bits. The 'b' variable keeps track
// of which bit in the byte we're recording.
for (int b = 0; b < 8; ++b) {
// Calculate the y position that we're currently
// trying to draw. We take our offset, divide it
// by 8 so we're talking about the y offset in
// terms of bytes, add our current 'k' byte
// offset to that, multiple by 8 to get it in terms
// of bits again, and add our bit offset to it.
int y = (((offset / 8) + k) * 8) + b;
// Calculate the location of the pixel we want in the bit array.
// It'll be at (y * width) + x.
int i = (y * image.getWidth()) + x;
// If the image (or this stripe of the image)
// is shorter than 24 dots, pad with zero.
boolean v = false;
if (i < imageBits.length()) {
v = imageBits.get(i);
}
// Finally, store our bit in the byte that we're currently
// scribbling to. Our current 'b' is actually the exact
// opposite of where we want it to be in the byte, so
// subtract it from 7, shift our bit into place in a temp
// byte, and OR it with the target byte to get it into there.
slice |= (byte) ((v ? 1 : 0) << (7 - b));
}
imageDataLine[imageDataLineIndex + k] = slice;
// Phew! Write the damn byte to the buffer
//printOutput.write(slice);
}
imageDataLineIndex += 3;
}
printOutput.write(imageDataLine);
offset += 24;
printOutput.write(PRINT_AND_FEED_PAPER);
}
printOutput.write(setLineSpacing30Dots);
} catch (IOException ex) {
Logger.getLogger(ESCPOSApi.class
.getName()).log(Level.SEVERE, null, ex);
}
}
}
Ich möchte 24-Punkte-Sigle-Density verwenden, aber im Moment verwende ich 24-Punkte-Sigle-Density mit Bildern von 255 Pixeln (damit kann ich Bilder in voller Seitenbreite drucken, aber ich benötige die doppelte Dichte)