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a74e920
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master
JEtherPix
org
blinkenarea
JFlexiPix
Display.java
added additional base index parameter to data() method of display
Stefan Schuermans
commited
a74e920
at 2011-09-11 11:27:59
Display.java
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/* JFlexiPix - Java implementation of FlexiPix output library * * Copyright 2010-2011 Stefan Schuermans <stefan blinkenarea org> * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, version 3 of the License. * * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this program. If not, see <http://www.gnu.org/licenses/>. */ package org.blinkenarea.JFlexiPix; import java.net.*; /// FlexiPix display public class Display { /** * @brief constructor * @param[in] configFile name of config file to read * @param[in] messageIf message interface to report messages to or null */ public Display(String configFile, MessageIf messageIf) throws Exception { Config config; // set default bind address try { InetAddress ip = InetAddress.getByAddress(Constants.bindIp); m_bindAddr = new InetSocketAddress(ip, Constants.bindPort); } catch (java.net.UnknownHostException e) { String txt = "internal error: bad default bind address"; if (messageIf != null) messageIf.message(MsgType.Err, txt + "\n"); throw new Exception(txt, e); } // allocate pixel object to store size m_size = new Pixel(); // allocate distributor array m_distris = new Distri [Constants.distriMaxCnt]; // no pixels yet m_distriCnt = 0; m_outputCnt = 0; m_pixelCnt = 0; // parse config file config = new Config(this, messageIf); try { config.procFile(configFile); } catch (Exception e) { String txt = "reading config file failed\n"; if (messageIf != null) messageIf.message(MsgType.Err, txt + "\n"); throw new Exception(txt, e); } config = null; // create socket and bind it try { m_sock = new DatagramSocket(m_bindAddr); } catch (SocketException e) { String txt = "creating and binding socket failed\n"; if (messageIf != null) messageIf.message(MsgType.Err, txt + "\n"); throw new Exception(txt, e); } // clear display dataClear(); } /// get width of display public int getWidth() { return m_size.m_x; } /// get height of display public int getHeight() { return m_size.m_y; } /// clear image data to output public void dataClear() { byte [] black = {(byte)0, (byte)0, (byte)0}; data(black, 0, 0, 0, 0, 0, m_size.m_x, m_size.m_y); } /** * @brief set image data to output * @param[in] data rectangular section of image data, * pixels need to be in R8G8B8 format * @param[in] strideX stride between two pixels in X direction * @param[in] strideY stride between two pixels in Y direction * @param[in] base array index of top-left pixel * @param[in] x X coordinate of left side of rectangular area * @param[in] y Y coordinate of top side of rectangular area * @param[in] width with of rectangular area * @param[in] height height of rectangular area */ public void data(byte [] data, int strideX, int strideY, int base, int x, int y, int width, int height) { int dist, out, pix, i, c; Distri distri; int dest, src; Pixel pixel; int rx, ry; // set data for all distributors for (dist = 0; dist < Constants.distriMaxCnt; ++dist) { distri = m_distris[dist]; if (distri != null) { /* set index to start of RGB data for pixels in message buffer (header is already set up and stays the same) */ dest = Constants.mcufHdr.length; // get RGB data of pixels for every output for (out = 0, i = 0; out < distri.m_outputCnt; ++out) { for (pix = 0; pix < distri.m_pixelCnt; ++pix, ++i) { pixel = distri.m_pixels[i]; if (pixel != null) { // get pixel coordinates relative to rectangular area of image rx = pixel.m_x - x; ry = pixel.m_y - y; // check if pixel is within rectangular area of image if (rx >= 0 && rx < width && ry >= 0 && ry < height) { // get pixel data and map it src = rx * strideX + ry * strideY + base; distri.m_msgBuf[dest+0] = distri.m_mapRed.m_table[data[src+0] & 0xFF]; distri.m_msgBuf[dest+1] = distri.m_mapGreen.m_table[data[src+1] & 0xFF]; distri.m_msgBuf[dest+2] = distri.m_mapBlue.m_table[data[src+2] & 0xFF]; } } // if pixel dest += 3; } // for pix } // for out } // if distri } // for distri } /// send image data to distributors public void send() { int dist; Distri distri; // send data to all distributors for (dist = 0; dist < Constants.distriMaxCnt; ++dist) { distri = m_distris[dist]; if (distri != null) { try { // assemble destination address of distributor int intIp = Constants.destIpBase + distri.m_distri * Constants.destIpStep; byte [] byteIp = { (byte)(intIp >> 24), (byte)(intIp >> 16), (byte)(intIp >> 8), (byte)intIp }; InetAddress ip = InetAddress.getByAddress(byteIp); // send message as UDP packet DatagramPacket pack = new DatagramPacket(distri.m_msgBuf, distri.m_msgBuf.length, ip, Constants.destPort); m_sock.send(pack); } catch (java.net.UnknownHostException e) { } catch (java.io.IOException e) { } } // if distri } // for distri } InetSocketAddress m_bindAddr; ///< local network address to bind to Pixel m_size; ///< size of display Distri [] m_distris; ///< information about distributors int m_distriCnt; ///< total number of distributors int m_outputCnt; ///< total number of outputs long m_pixelCnt; ///< total number of pixels DatagramSocket m_sock; ///< socket to send UDP packets }