@Override public void onSequenceChanged(final int[] idx) { sequenceView.setEnabled(false); Size input = new Size(MainScreen.getImageWidth(), MainScreen.getImageHeight()); // int imagesAmount = // Integer.parseInt(PluginManager.getInstance().getFromSharedMem("amountofcapturedframes"+Long.toString(sessionID))); // ArrayList<byte []> compressed_frame = new ArrayList<byte []>(); int minSize = 1000; if (mMinSize == 0) { minSize = 0; } else { minSize = input.getWidth() * input.getHeight() / mMinSize; } Size preview = new Size(mDisplayWidth, mDisplayHeight); try { mAlmaCLRShot.initialize( preview, mAngle, /* * sensitivity for objection detection * */ mSensitivity - 15, /* * Minimum size of object to be able to detect * -15 ~ 15 * max -> easy detection dull detection * min -> */ minSize, /* * ghosting parameter * 0 : normal operation * 1 : detect ghosted objects but not remove them * 2 : detect and remove all object */ Integer.parseInt(mGhosting), idx); } catch (NumberFormatException e) { // TODO Auto-generated catch block e.printStackTrace(); } catch (Exception e) { // TODO Auto-generated catch block e.printStackTrace(); } mHandler.sendEmptyMessage(MSG_REDRAW); }
@Override public void onStartProcessing(long SessionID) { finishing = false; Message msg = new Message(); msg.what = PluginManager.MSG_PROCESSING_BLOCK_UI; MainScreen.H.sendMessage(msg); Message msg2 = new Message(); msg2.arg1 = PluginManager.MSG_CONTROL_LOCKED; msg2.what = PluginManager.MSG_BROADCAST; MainScreen.H.sendMessage(msg2); MainScreen.guiManager.lockControls = true; sessionID = SessionID; PluginManager.getInstance() .addToSharedMem( "modeSaveName" + Long.toString(sessionID), PluginManager.getInstance().getActiveMode().modeSaveName); mDisplayOrientation = MainScreen.guiManager.getDisplayOrientation(); int orientation = MainScreen.guiManager.getLayoutOrientation(); mLayoutOrientationCurrent = (orientation == 0 || orientation == 180) ? orientation : (orientation + 180) % 360; mCameraMirrored = MainScreen.getCameraMirrored(); if (mDisplayOrientation == 0 || mDisplayOrientation == 180) { imgWidthOR = MainScreen.getImageHeight(); imgHeightOR = MainScreen.getImageWidth(); } else { imgWidthOR = MainScreen.getImageWidth(); imgHeightOR = MainScreen.getImageHeight(); } int iSaveImageWidth = MainScreen.getSaveImageWidth(); int iSaveImageHeight = MainScreen.getSaveImageHeight(); mAlmaCLRShot = AlmaCLRShot.getInstance(); getPrefs(); try { Size input = new Size(MainScreen.getImageWidth(), MainScreen.getImageHeight()); int imagesAmount = Integer.parseInt( PluginManager.getInstance() .getFromSharedMem("amountofcapturedframes" + Long.toString(sessionID))); ArrayList<byte[]> compressed_frame = new ArrayList<byte[]>(); int minSize = 1000; if (mMinSize == 0) { minSize = 0; } else { minSize = input.getWidth() * input.getHeight() / mMinSize; } if (imagesAmount == 0) imagesAmount = 1; thumbnails.clear(); for (int i = 1; i <= imagesAmount; i++) { byte[] in = SwapHeap.CopyFromHeap( Integer.parseInt( PluginManager.getInstance() .getFromSharedMem("frame" + i + Long.toString(sessionID))), Integer.parseInt( PluginManager.getInstance() .getFromSharedMem("framelen" + i + Long.toString(sessionID)))); compressed_frame.add(i - 1, in); BitmapFactory.Options opts = new BitmapFactory.Options(); thumbnails.add( Bitmap.createScaledBitmap( BitmapFactory.decodeByteArray(in, 0, in.length, opts), MainScreen.thiz.getResources().getDisplayMetrics().heightPixels / imagesAmount, (int) (opts.outHeight * (((float) MainScreen.thiz.getResources().getDisplayMetrics().heightPixels / imagesAmount) / opts.outWidth)), false)); } mJpegBufferList = compressed_frame; getDisplaySize(mJpegBufferList.get(0)); Size preview = new Size(mDisplayWidth, mDisplayHeight); if (SaveInputPreference) { try { File saveDir = PluginManager.getInstance().GetSaveDir(false); SharedPreferences prefs = PreferenceManager.getDefaultSharedPreferences(MainScreen.mainContext); int saveOption = Integer.parseInt(prefs.getString("exportName", "3")); Calendar d = Calendar.getInstance(); String fileFormat = String.format( "%04d%02d%02d_%02d%02d%02d", d.get(Calendar.YEAR), d.get(Calendar.MONTH) + 1, d.get(Calendar.DAY_OF_MONTH), d.get(Calendar.HOUR_OF_DAY), d.get(Calendar.MINUTE), d.get(Calendar.SECOND)); switch (saveOption) { case 1: // YEARMMDD_HHMMSS break; case 2: // YEARMMDD_HHMMSS_MODE fileFormat += "_" + PluginManager.getInstance().getActiveMode().modeSaveName; break; case 3: // IMG_YEARMMDD_HHMMSS fileFormat = "IMG_" + fileFormat; break; case 4: // IMG_YEARMMDD_HHMMSS_MODE fileFormat = "IMG_" + fileFormat + "_" + PluginManager.getInstance().getActiveMode().modeSaveName; break; } ContentValues values = null; for (int i = 0; i < imagesAmount; ++i) { String index = String.format("_%02d", i); File file = new File(saveDir, fileFormat + index + ".jpg"); FileOutputStream os = null; try { os = new FileOutputStream(file); } catch (Exception e) { // save always if not working saving to sdcard e.printStackTrace(); saveDir = PluginManager.getInstance().GetSaveDir(true); file = new File(saveDir, fileFormat + index + ".jpg"); os = new FileOutputStream(file); } String resultOrientation = PluginManager.getInstance() .getFromSharedMem("frameorientation" + (i + 1) + Long.toString(sessionID)); Boolean orientationLandscape = false; if (resultOrientation == null) orientationLandscape = true; else orientationLandscape = Boolean.parseBoolean(resultOrientation); String resultMirrored = PluginManager.getInstance() .getFromSharedMem("framemirrored" + (i + 1) + Long.toString(sessionID)); Boolean cameraMirrored = false; if (resultMirrored != null) cameraMirrored = Boolean.parseBoolean(resultMirrored); if (os != null) { // ToDo: not enough memory error reporting os.write(compressed_frame.get(i)); os.close(); ExifInterface ei = new ExifInterface(file.getAbsolutePath()); int exif_orientation = ExifInterface.ORIENTATION_NORMAL; switch (mDisplayOrientation) { default: case 0: exif_orientation = ExifInterface .ORIENTATION_NORMAL; // cameraMirrored ? // ExifInterface.ORIENTATION_ROTATE_180 : // ExifInterface.ORIENTATION_NORMAL; break; case 90: exif_orientation = cameraMirrored ? ExifInterface.ORIENTATION_ROTATE_270 : ExifInterface.ORIENTATION_ROTATE_90; break; case 180: exif_orientation = ExifInterface .ORIENTATION_ROTATE_180; // cameraMirrored ? // ExifInterface.ORIENTATION_NORMAL : // ExifInterface.ORIENTATION_ROTATE_180; break; case 270: exif_orientation = cameraMirrored ? ExifInterface.ORIENTATION_ROTATE_90 : ExifInterface.ORIENTATION_ROTATE_270; break; } ei.setAttribute(ExifInterface.TAG_ORIENTATION, "" + exif_orientation); ei.saveAttributes(); } String dateString = new SimpleDateFormat("yyyy:MM:dd HH:mm:ss").format(new Date()); values = new ContentValues(9); values.put( ImageColumns.TITLE, file.getName().substring(0, file.getName().lastIndexOf("."))); values.put(ImageColumns.DISPLAY_NAME, file.getName()); values.put(ImageColumns.DATE_TAKEN, System.currentTimeMillis()); values.put(ImageColumns.MIME_TYPE, "image/jpeg"); values.put( ImageColumns.ORIENTATION, (!orientationLandscape && !cameraMirrored) ? 90 : (!orientationLandscape && cameraMirrored) ? -90 : 0); values.put(ImageColumns.DATA, file.getAbsolutePath()); if (prefs.getBoolean("useGeoTaggingPrefExport", false)) { Location l = MLocation.getLocation(MainScreen.mainContext); if (l != null) { // Exiv2.writeGeoDataIntoImage( // file.getAbsolutePath(), // true, // l.getLatitude(), // l.getLongitude(), // dateString, // android.os.Build.MANUFACTURER != null ? // android.os.Build.MANUFACTURER : "Google", // android.os.Build.MODEL != null ? android.os.Build.MODEL : // "Android device"); ExifInterface ei = new ExifInterface(file.getAbsolutePath()); ei.setAttribute( ExifInterface.TAG_GPS_LATITUDE, GPSTagsConverter.convert(l.getLatitude())); ei.setAttribute( ExifInterface.TAG_GPS_LATITUDE_REF, GPSTagsConverter.latitudeRef(l.getLatitude())); ei.setAttribute( ExifInterface.TAG_GPS_LONGITUDE, GPSTagsConverter.convert(l.getLongitude())); ei.setAttribute( ExifInterface.TAG_GPS_LONGITUDE_REF, GPSTagsConverter.longitudeRef(l.getLongitude())); ei.saveAttributes(); values.put(ImageColumns.LATITUDE, l.getLatitude()); values.put(ImageColumns.LONGITUDE, l.getLongitude()); } } MainScreen.thiz.getContentResolver().insert(Images.Media.EXTERNAL_CONTENT_URI, values); } } catch (IOException e) { e.printStackTrace(); MainScreen.H.sendEmptyMessage(PluginManager.MSG_EXPORT_FINISHED_IOEXCEPTION); return; } catch (Exception e) { // Toast.makeText(MainScreen.mainContext, "Low memory. Can't finish processing.", // Toast.LENGTH_LONG).show(); e.printStackTrace(); } } PluginManager.getInstance() .addToSharedMem( "amountofresultframes" + Long.toString(sessionID), String.valueOf(imagesAmount)); PluginManager.getInstance() .addToSharedMem( "saveImageWidth" + String.valueOf(sessionID), String.valueOf(iSaveImageWidth)); PluginManager.getInstance() .addToSharedMem( "saveImageHeight" + String.valueOf(sessionID), String.valueOf(iSaveImageHeight)); this.indexes = new int[imagesAmount]; for (int i = 0; i < imagesAmount; i++) { this.indexes[i] = i; } // frames!!! should be taken from heap mAlmaCLRShot.addInputFrame(compressed_frame, input); mAlmaCLRShot.initialize( preview, mAngle, /* * sensitivity for objection detection * */ mSensitivity - 15, /* * Minimum size of object to be able to detect * -15 ~ 15 * max -> easy detection dull detection * min -> */ minSize, /* * ghosting parameter * 0 : normal operation * 1 : detect ghosted objects but not remove them * 2 : detect and remove all object */ Integer.parseInt(mGhosting), indexes); compressed_frame.clear(); } catch (Exception e) { e.printStackTrace(); } }