public final void refresh() { RT = Runtime.getRuntime(); txtMaxMem.setText(Long.toString(RT.maxMemory() / 1048576)); txtTotalMem.setText(Long.toString(RT.totalMemory() / 1048576)); this.txtUsedMem.setText(Long.toString((RT.totalMemory() - RT.freeMemory()) / 1048576)); this.txtStorage.setText( new DecimalFormat(".000").format(WorkDir.getUsableSpace() / 1000000000F)); this.lblFolder.setText(WorkDir.getAbsolutePath()); }
public static String memoryToString() { DecimalFormat fmt = new DecimalFormat("0.0"); return "Memory: " + fmt.format(RUNTIME.maxMemory() / 1048576D) + "MByte maximum, " + fmt.format(RUNTIME.totalMemory() / 1048576D) + "MByte total, " + fmt.format(RUNTIME.totalMemory() / 1048576D) + "MByte free"; }
public static void fullGC(boolean verbose) { if (verbose) System.out.print( new Date().toString() + ' ' + String.valueOf((RUNTIME.totalMemory() - RUNTIME.freeMemory()) / 1024L) + "Kb used"); long isFree = RUNTIME.freeMemory(); long wasFree; do { wasFree = isFree; RUNTIME.runFinalization(); RUNTIME.gc(); isFree = RUNTIME.freeMemory(); } while (isFree > wasFree); if (verbose) System.out.println( " --> " + String.valueOf((RUNTIME.totalMemory() - RUNTIME.freeMemory()) / 1024L) + "Kb used"); }
public void paint(Graphics g) { if (big == null) { return; } big.setBackground(getBackground()); big.clearRect(0, 0, w, h); float freeMemory = (float) r.freeMemory(); float totalMemory = (float) r.totalMemory(); // .. Draw allocated and used strings .. big.setColor(GREEN); big.drawString( String.valueOf((int) totalMemory / 1024) + "K allocated", 4.0f, (float) ascent + 0.5f); usedStr = String.valueOf(((int) (totalMemory - freeMemory)) / 1024) + "K used"; big.drawString(usedStr, 4, h - descent); // Calculate remaining size float ssH = ascent + descent; float remainingHeight = (float) (h - (ssH * 2) - 0.5f); float blockHeight = remainingHeight / 10; float blockWidth = 20.0f; float remainingWidth = (float) (w - blockWidth - 10); // .. Memory Free .. big.setColor(mfColor); int MemUsage = (int) ((freeMemory / totalMemory) * 10); int i = 0; for (; i < MemUsage; i++) { mfRect.setRect(5, (float) ssH + i * blockHeight, blockWidth, (float) blockHeight - 1); big.fill(mfRect); } // .. Memory Used .. big.setColor(GREEN); for (; i < 10; i++) { muRect.setRect(5, (float) ssH + i * blockHeight, blockWidth, (float) blockHeight - 1); big.fill(muRect); } // .. Draw History Graph .. big.setColor(graphColor); int graphX = 30; int graphY = (int) ssH; int graphW = w - graphX - 5; int graphH = (int) remainingHeight; graphOutlineRect.setRect(graphX, graphY, graphW, graphH); big.draw(graphOutlineRect); int graphRow = graphH / 10; // .. Draw row .. for (int j = graphY; j <= graphH + graphY; j += graphRow) { graphLine.setLine(graphX, j, graphX + graphW, j); big.draw(graphLine); } // .. Draw animated column movement .. int graphColumn = graphW / 15; if (columnInc == 0) { columnInc = graphColumn; } for (int j = graphX + columnInc; j < graphW + graphX; j += graphColumn) { graphLine.setLine(j, graphY, j, graphY + graphH); big.draw(graphLine); } --columnInc; if (pts == null) { pts = new int[graphW]; ptNum = 0; } else if (pts.length != graphW) { int tmp[] = null; if (ptNum < graphW) { tmp = new int[ptNum]; System.arraycopy(pts, 0, tmp, 0, tmp.length); } else { tmp = new int[graphW]; System.arraycopy(pts, pts.length - tmp.length, tmp, 0, tmp.length); ptNum = tmp.length - 2; } pts = new int[graphW]; System.arraycopy(tmp, 0, pts, 0, tmp.length); } else { big.setColor(YELLOW); pts[ptNum] = (int) (graphY + graphH * (freeMemory / totalMemory)); for (int j = graphX + graphW - ptNum, k = 0; k < ptNum; k++, j++) { if (k != 0) { if (pts[k] != pts[k - 1]) { big.drawLine(j - 1, pts[k - 1], j, pts[k]); } else { big.fillRect(j, pts[k], 1, 1); } } } if (ptNum + 2 == pts.length) { // throw out oldest point for (int j = 1; j < ptNum; j++) { pts[j - 1] = pts[j]; } --ptNum; } else { ptNum++; } } g.drawImage(bimg, 0, 0, this); }