Beispiel #1
0
  /**
   * Synchronize the textLayout and the shape (=frame box, by calling syncFrame) with the model When
   * <code>TextLayout</code> is used, this delegates to <code>getRotation()</code> where computing
   * rotation angle is concerned, and updates the AffineTransform returned by <code>
   * getTextToModelTransform()</code>.
   */
  protected void syncShape() {
    PicText te = (PicText) element;

    //			textLayout = new TextLayout(te.getText().length()==0 ? " " : te.getText(),
    //			    textFont,
    //			    new FontRenderContext(null,false,false));

    text2ModelTr.setToIdentity(); // reset
    PicPoint anchor = te.getCtrlPt(TextEditable.P_ANCHOR, ptBuf);
    text2ModelTr.rotate(getRotation(), anchor.x, anchor.y); // rotate along P_ANCHOR !
    // the reference point of an image is the top-left one, but the refpoint of a text layout is on
    // the baseline
    if (image != null) {
      text2ModelTr.translate(te.getLeftX(), te.getTopY());
      if (te.getWidth() != 0
          && image.getWidth() != 0
          && (te.getDepth() + te.getHeight()) != 0
          && image.getHeight() != 0)
        text2ModelTr.scale(
            te.getWidth() / image.getWidth(),
            -(te.getHeight() + te.getDepth()) / image.getHeight());
    } else {
      // Hack ? Just cheating a little bit ? Ou juste ruse ?
      // we want here to use the dimensions of the textLayout instead of latex dimensions if
      // areDimensionsComputed
      // sinon on va aligner le textlayout en fonction des parametres latex, et l'Utilisateur (qui
      // est bien bete) ne va rien comprendre.
      double latexH = 0;
      double latexD = 0;
      double latexW = 0;
      if (areDimensionsComputed) { // store latex dimensions, and setDimensions to textLayout ones
        latexH = te.getHeight();
        latexD = te.getDepth();
        latexW = te.getWidth();
        te.setDimensions(
            textLayout.getBounds().getWidth(), textLayout.getAscent(), textLayout.getDescent());
      }
      text2ModelTr.translate(te.getLeftX(), te.getBaseLineY());
      if (areDimensionsComputed) { // restore latex dimensions
        te.setDimensions(latexW, latexH, latexD);
      }
      // Autre possibilite= comprimer le texte pour qu'il rentre dans la boite (evite le hack
      // ci-dessus):
      // text2ModelTr.scale(te.getWidth()/textLayout.getWidth(),-(te.getHeight()+te.getDepth())/textLayout.getHeight());
      text2ModelTr.scale(1.0, -1.0);
    }
    syncFrame();
  }
Beispiel #2
0
 public void drawScaledImage(BufferedImage im, int x, int y, int w, int h) {
   float scaleX = w * 1.0f / im.getWidth();
   float scaleY = h * 1.0f / im.getHeight();
   AffineTransform tx = new AffineTransform();
   tx.scale(scaleX, scaleY);
   BufferedImageOp op = new AffineTransformOp(tx, AffineTransformOp.TYPE_BILINEAR);
   drawImage(im, op, x, y);
 }
Beispiel #3
0
  /**
   * Gets the mark for the specified panel.
   *
   * @param trackerPanel the tracker panel
   * @return the mark
   */
  protected Mark getMark(TrackerPanel trackerPanel) {
    Mark mark = marks.get(trackerPanel);
    TPoint selection = null;
    if (mark == null) {
      selection = trackerPanel.getSelectedPoint();
      Point p = null;
      valid = true; // assume true
      for (int n = 0; n < points.length; n++) {
        if (!valid) continue;
        // determine if point is valid (ie not NaN)
        valid = valid && !Double.isNaN(points[n].getX()) && !Double.isNaN(points[n].getY());
        screenPoints[n] = points[n].getScreenPosition(trackerPanel);
        if (valid && selection == points[n]) p = screenPoints[n];
      }
      mark = footprint.getMark(screenPoints);
      if (p != null) { // point is selected, so draw selection shape
        transform.setToTranslation(p.x, p.y);
        int scale = FontSizer.getIntegerFactor();
        if (scale > 1) {
          transform.scale(scale, scale);
        }
        final Color color = footprint.getColor();
        final Mark stepMark = mark;
        final Shape selectedShape = transform.createTransformedShape(selectionShape);
        mark =
            new Mark() {
              public void draw(Graphics2D g, boolean highlighted) {
                stepMark.draw(g, false);
                Paint gpaint = g.getPaint();
                g.setPaint(color);
                g.fill(selectedShape);
                g.setPaint(gpaint);
              }

              public Rectangle getBounds(boolean highlighted) {
                Rectangle bounds = selectedShape.getBounds();
                bounds.add(stepMark.getBounds(false));
                return bounds;
              }
            };
      }
      final Mark theMark = mark;
      mark =
          new Mark() {
            public void draw(Graphics2D g, boolean highlighted) {
              if (!valid) return;
              theMark.draw(g, false);
            }

            public Rectangle getBounds(boolean highlighted) {
              return theMark.getBounds(highlighted);
            }
          };
      marks.put(trackerPanel, mark);
    }
    return mark;
  }
Beispiel #4
0
  private void drawAWP(Graphics g, int x, int y) {
    if (System.currentTimeMillis() < shotTime + TAWP.SHOOT_TIME) {
      // System.out.println(true);
      double multi = 1.0 * (System.currentTimeMillis() - shotTime) / TAWP.SHOOT_TIME;
      g.setColor(new Color(255, 255, 255, 255 - (int) (multi * 256)));
      g.fillRect(0, 0, Wuigi.screenWidth, Wuigi.screenHeight);
    }
    if (numBullets <= 0) return;

    BufferedImage img = TAWP.IMAGE.getBuffer();
    AffineTransform xform = new AffineTransform();
    // g2d.setPaint(new TexturePaint(figureOutDrawImage(),
    //		new Rectangle2D.Float(0, 0, 32, 32)));
    // g2d.drawImage(figureOutDrawImage(),0,0,null);
    xform.setToIdentity();
    xform.translate(x - 5, y);

    double diffY = y + height / 2 - ScreenManager.mouse.y;
    double diffX = ScreenManager.mouse.x - x - width / 2;

    double angle;

    if (diffY > 0 && diffX > 0) {
      angle = Math.PI / 2 - Math.atan(diffY / diffX);
    } else if (diffY == 0 && diffX > 0) {
      angle = Math.PI / 2;
    } else if (diffY < 0 && diffX > 0) {
      angle = Math.PI / 2 + Math.atan(-diffY / diffX);
    } else if (diffY < 0 && diffX == 0) {
      angle = Math.PI;
    } else if (diffY < 0 && diffX < 0) {
      angle = 3 * Math.PI / 2 - Math.atan(diffY / diffX);
    } else if (diffY == 0 && diffX < 0) {
      angle = 3 * Math.PI / 2;
    } else if (diffY > 0 && diffX < 0) {
      angle = 3 * Math.PI / 2 + Math.atan(-diffY / diffX);
    } else {
      angle = 0;
    }
    angle -= Math.PI / 2;

    if (angle > Math.PI / 2 && angle < 3 * Math.PI / 2) {
      xform.scale(1, -1);
      xform.translate(0, -TAWP.IMAGE.getHeight());
      angle = -angle;
    }
    // xform.scale(/*width/img.getWidth(),height/img.getHeight()*/);
    xform.rotate(angle, 27, 13);

    ((Graphics2D) g).drawImage(img, xform, null);
    ammo.setPos(x + 10, y - 20);
    ammo.draw(g);
  }
Beispiel #5
0
 public void paintBorder(Component c, Graphics g, int x, int y, int width, int height) {
   if (image != null && showimage) {
     // TODO: add ability to scale maintaining aspect ratio fitting to size of parent
     // TODO: Need to add not zoom all the way, but zoom to a box of aspect ratio 4/3
     Graphics2D g2 = (Graphics2D) g;
     AffineTransform tran = new AffineTransform(1f, 0f, 0f, 1f, 0, 0);
     float widthscale = (float) c.getWidth() / image.getWidth();
     float heightscale = (float) c.getHeight() / image.getHeight();
     switch (drawmode) {
       case DRAW_MODE_ASPECT:
         float scale;
         if (widthscale < heightscale) {
           scale = widthscale;
         } else {
           scale = heightscale;
         }
         tran.scale(scale, scale);
         g2.drawImage(
             image,
             new AffineTransformOp(tran, AffineTransformOp.TYPE_BILINEAR),
             (int) (c.getWidth() - image.getWidth() * scale) / 2,
             (int) (c.getHeight() - image.getHeight() * scale) / 2);
         break;
       case DRAW_MODE_WIDTH:
         tran.scale(widthscale, widthscale);
         g2.drawImage(image, tran, null);
         break;
       case DRAW_MODE_HEIGHT:
         tran.scale(heightscale, heightscale);
         g2.drawImage(image, tran, null);
         break;
       default:
         tran.scale(widthscale, heightscale);
         g2.drawImage(image, tran, null);
         break;
     }
   }
 }
Beispiel #6
0
  /**
   * Zoom, preserving the center point on the screen. (When we draw, the center point may be moved
   * in order to maximize the amount of image seen on screen.) *
   */
  void adjustZoom(double z, Point2D cp) {
    if (cp == null) cp = new Point2D.Double(getWidth() / 2, getHeight() / 2);

    Point2D cxt = componentToImage(cp);
    double tx = cp.getX() - cxt.getX() * z;
    double ty = cp.getY() - cxt.getY() * z;

    t = new AffineTransform();
    t.translate(tx, ty);
    t.scale(z, z);

    fit = false;
    repaint();
  }
Beispiel #7
0
  public void paint(Graphics g) {
    Graphics2D g2d = (Graphics2D) g;

    AffineTransform trans = new AffineTransform();

    int width = getSize().width;
    int height = getSize().height;

    g2d.setColor(Color.BLACK);
    g2d.fillRect(0, 0, width, height);

    trans.setTransform(identity);
    trans.scale(scale, scale);

    g2d.drawImage(image, trans, this);
  }
Beispiel #8
0
  public synchronized void paint(Graphics gin) {
    Graphics2D g = (Graphics2D) gin;

    if (im == null) return;

    int height = getHeight();
    int width = getWidth();

    if (fit) {
      t = new AffineTransform();
      double scale = Math.min(((double) width) / im.getWidth(), ((double) height) / im.getHeight());
      // we'll re-center the transform in a moment.
      t.scale(scale, scale);
    }

    // if the image (in either X or Y) is smaller than the view port, then center
    // the image with respect to that axis.
    double mwidth = im.getWidth() * t.getScaleX();
    double mheight = im.getHeight() * t.getScaleY();
    if (mwidth < width)
      t.preConcatenate(
          AffineTransform.getTranslateInstance((width - mwidth) / 2.0 - t.getTranslateX(), 0));
    if (mheight < height)
      t.preConcatenate(
          AffineTransform.getTranslateInstance(0, (height - mheight) / 2.0 - t.getTranslateY()));

    // if we're allowing panning (because only a portion of the image is visible),
    // don't allow translations that show less information that is possible.
    Point2D topleft = t.transform(new Point2D.Double(0, 0), null);
    Point2D bottomright = t.transform(new Point2D.Double(im.getWidth(), im.getHeight()), null);

    if (mwidth > width) {
      if (topleft.getX() > 0)
        t.preConcatenate(AffineTransform.getTranslateInstance(-topleft.getX(), 0));
      if (bottomright.getX() < width)
        t.preConcatenate(AffineTransform.getTranslateInstance(width - bottomright.getX(), 0));
      //		    t.translate(width-bottomright.getX(), 0);
    }
    if (mheight > height) {
      if (topleft.getY() > 0)
        t.preConcatenate(AffineTransform.getTranslateInstance(0, -topleft.getY()));
      if (bottomright.getY() < height)
        t.preConcatenate(AffineTransform.getTranslateInstance(0, height - bottomright.getY()));
    }

    g.drawImage(im, t, null);
  }
Beispiel #9
0
  /**
   * Method to create a new picture by scaling the current picture by the given x and y factors
   *
   * @param xFactor the amount to scale in x
   * @param yFactor the amount to scale in y
   * @return the resulting picture
   */
  public Picture scale(double xFactor, double yFactor) {
    // set up the scale transform
    AffineTransform scaleTransform = new AffineTransform();
    scaleTransform.scale(xFactor, yFactor);

    // create a new picture object that is the right size
    Picture result = new Picture((int) (getWidth() * xFactor), (int) (getHeight() * yFactor));

    // get the graphics 2d object to draw on the result
    Graphics graphics = result.getGraphics();
    Graphics2D g2 = (Graphics2D) graphics;

    // draw the current image onto the result image scaled
    g2.drawImage(this.getImage(), scaleTransform, null);

    return result;
  }
Beispiel #10
0
  // ---------------------------------------------------------
  private synchronized AffineTransform bufferTransform() {
    AffineTransform r = new AffineTransform();
    for (int i = 0; i < a1.size(); i++) {
      int s1 = a1.get(i);
      Object s2 = a2.get(i);
      Object s3[] = null;
      if (s2 instanceof Object[]) s3 = (Object[]) s2;

      if (s1 == setTransform) {
        r = makeTransform(s2);
      }
      if (s1 == shear) r.shear((Double) s3[0], (Double) s3[1]);
      if (s1 == rotate1) r.rotate((Double) s2);
      if (s1 == rotate2) r.rotate((Double) s3[0], (Double) s3[1], (Double) s3[2]);
      if (s1 == scale1) r.scale((Double) s3[0], (Double) s3[1]);
      if (s1 == translate1) r.translate((Double) s3[0], (Double) s3[1]);
      if (s1 == translate2) r.translate((Integer) s3[0], (Integer) s3[1]);
    }
    return r;
  }
Beispiel #11
0
  public AffineTransform getAffineTransform(
      int width, int height, double[] _xyzSW, double[] _xyzSE, double[] _xyzNW) {
    int[] cornerNW = projection.screenProjection(_xyzNW);
    int[] cornerSE = projection.screenProjection(_xyzSE);
    int[] cornerSW = projection.screenProjection(_xyzSW);

    double[] vectWE = {
      (double) cornerSE[0] - (double) cornerSW[0], (double) cornerSE[1] - (double) cornerSW[1]
    };
    double normvectWE = sqrt(sqr(vectWE[0]) + sqr(vectWE[1]));
    double[] vectSN = {
      (double) cornerNW[0] - (double) cornerSW[0], (double) cornerNW[1] - (double) cornerSW[1]
    };
    double normvectSN = sqrt(sqr(vectSN[0]) + sqr(vectSN[1]));
    double angleSW =
        acos((vectWE[0] * vectSN[0] + vectWE[1] * vectSN[1]) / (normvectWE * normvectSN));

    if (angleSW == 0.0) {
      return null;
    }

    AffineTransform t = new AffineTransform();

    t.translate(cornerNW[0], cornerNW[1]);
    t.scale(sign(vectWE[0]), -sign(vectSN[1]));
    t.rotate(-atan(vectSN[0] / vectSN[1]));
    t.shear(0, 1 / tan(PI - angleSW));
    t.scale(normvectWE * cos(angleSW - PI / 2) / (double) width, normvectSN / (double) height);

    double[] _cornerSE_tr = new double[2];
    double[] _cornerSE = {width, height};
    t.transform(_cornerSE, 0, _cornerSE_tr, 0, 1);

    if (isDiff(_cornerSE_tr, cornerSE)) {
      double[] vectSE_NW_1 = {
        (double) cornerNW[0] - (double) cornerSE[0], (double) cornerNW[1] - (double) cornerSE[1]
      };
      double[] vectSE_NW_2 = {
        (double) cornerNW[0] - (double) _cornerSE_tr[0],
        (double) cornerNW[1] - (double) _cornerSE_tr[1]
      };

      double normvect_1 = sqrt(sqr(vectSE_NW_1[0]) + sqr(vectSE_NW_1[1]));
      double normvect_2 = sqrt(sqr(vectSE_NW_1[0]) + sqr(vectSE_NW_1[1]));

      double cos_angle =
          (((vectSE_NW_1[0] * vectSE_NW_2[0] + vectSE_NW_1[1] * vectSE_NW_2[1])
              / (normvect_1 * normvect_2)));
      double vect = (vectSE_NW_1[0] * vectSE_NW_2[1] - vectSE_NW_1[1] * vectSE_NW_2[0]);

      AffineTransform t2 = new AffineTransform();
      if (vect < 0) {
        t2.rotate(acos(cos_angle), cornerNW[0], cornerNW[1]);
      } else {
        t2.rotate(-acos(cos_angle), cornerNW[0], cornerNW[1]);
      }
      t.preConcatenate(t2);
    }

    // TODO patch for many cases...

    /*double[] _cornerSW_tr = new double[2];
    double[] _cornerSW = { 0, img.getHeight(canvas) };
    t.transform(_cornerSW, 0, _cornerSW_tr, 0, 1);

    if (isDiff(_cornerSW_tr, cornerSW)) {
    double[] vectSW_NW_1 = { (double) cornerNW[0] - (double) cornerSW[0], (double) cornerNW[1] - (double) cornerSW[1] };
    double[] vectSW_NW_2 = { (double) cornerNW[0] - (double) _cornerSW_tr[0], (double) cornerNW[1] - (double) _cornerSW_tr[1] };

    double normvect_1 = sqrt(sqr(vectSW_NW_1[0]) + sqr(vectSW_NW_1[1]));
    double normvect_2 = sqrt(sqr(vectSW_NW_1[0]) + sqr(vectSW_NW_1[1]));

    double cos_angle = (((vectSW_NW_1[0] * vectSW_NW_2[0] + vectSW_NW_1[1] * vectSW_NW_2[1]) / (normvect_1 * normvect_2)));
    double vect = (vectSW_NW_1[0] * vectSW_NW_2[1] - vectSW_NW_1[1] * vectSW_NW_2[0]);

    System.out.println(cos_angle + " " + vect + " -> " + toDegrees(acos(cos_angle)));

    //System.out.println(" "+vectSE_NW_1[0]+","+vectSE_NW_1[1]+"  "+vectSE_NW_2[0]+","+vectSE_NW_2[1]);
    AffineTransform t2 = new AffineTransform();
    if (vect > 0)
    t2.rotate(acos(cos_angle), cornerNW[0], cornerNW[1]);
    else
    t2.rotate(-acos(cos_angle), cornerNW[0], cornerNW[1]);
    t.preConcatenate(t2);

    }*/
    return t;
  }
Beispiel #12
0
  // Thread's run method aimed at creating a bitmap asynchronously
  public void run() {
    Drawing drawing = new Drawing();
    PicText rawPicText = new PicText();
    String s = ((PicText) element).getText();
    rawPicText.setText(s);
    drawing.add(
        rawPicText); // bug fix: we must add a CLONE of the PicText, otherwise it loses it former
                     // parent... (then pb with the view )
    drawing.setNotparsedCommands(
        "\\newlength{\\jpicwidth}\\settowidth{\\jpicwidth}{"
            + s
            + "}"
            + CR_LF
            + "\\newlength{\\jpicheight}\\settoheight{\\jpicheight}{"
            + s
            + "}"
            + CR_LF
            + "\\newlength{\\jpicdepth}\\settodepth{\\jpicdepth}{"
            + s
            + "}"
            + CR_LF
            + "\\typeout{JPICEDT INFO: \\the\\jpicwidth, \\the\\jpicheight,  \\the\\jpicdepth }"
            + CR_LF);
    RunExternalCommand.Command commandToRun = RunExternalCommand.Command.BITMAP_CREATION;
    // RunExternalCommand command = new RunExternalCommand(drawing, contentType,commandToRun);
    boolean isWriteTmpTeXfile = true;
    String bitmapExt = "png"; // [pending] preferences
    String cmdLine =
        "{i}/unix/tetex/create_bitmap.sh {p} {f} "
            + bitmapExt
            + " "
            + fileDPI; // [pending] preferences
    ContentType contentType = getContainer().getContentType();
    RunExternalCommand.isGUI = false; // System.out, no dialog box // [pending] debug
    RunExternalCommand command =
        new RunExternalCommand(drawing, contentType, cmdLine, isWriteTmpTeXfile);
    command
        .run(); // synchronous in an async. thread => it's ok (anyway, we must way until the LaTeX
                // process has completed)

    if (wantToComputeLatexDimensions) {
      // load size of text:
      try {
        File logFile = new File(command.getTmpPath(), command.getTmpFilePrefix() + ".log");
        BufferedReader reader = null;
        try {
          reader = new BufferedReader(new FileReader(logFile));
        } catch (FileNotFoundException fnfe) {
          System.out.println("Cannot find log file! " + fnfe.getMessage());
          System.out.println(logFile);
        } catch (IOException ioex) {
          System.out.println("Log file IO exception");
          ioex.printStackTrace();
        } // utile ?
        System.out.println("Log file created! file=" + logFile);
        getDimensionsFromLogFile(reader, (PicText) element);
        syncStringLocation(); // update dimensions
        syncBounds();
        syncFrame();
        SwingUtilities.invokeLater(
            new Thread() {
              public void run() {
                repaint(null);
              }
            });
        // repaint(null); // now that dimensions are available, we force a repaint() [pending]
        // smart-repaint ?
      } catch (Exception e) {
        e.printStackTrace();
      }
    }

    if (wantToGetBitMap) {
      // load image:
      try {
        File bitmapFile =
            new File(command.getTmpPath(), command.getTmpFilePrefix() + "." + bitmapExt);
        this.image = ImageIO.read(bitmapFile);
        System.out.println(
            "Bitmap created! file="
                + bitmapFile
                + ", width="
                + image.getWidth()
                + "pixels, height="
                + image.getHeight()
                + "pixels");
        if (image == null) return;
        syncStringLocation(); // sets strx, stry, and dimensions of text
        syncBounds();
        // update the AffineTransform that will be applied to the bitmap before displaying on screen
        PicText te = (PicText) element;
        text2ModelTr.setToIdentity(); // reset
        PicPoint anchor = te.getCtrlPt(TextEditable.P_ANCHOR, ptBuf);
        text2ModelTr.rotate(getRotation(), anchor.x, anchor.y); // rotate along P_ANCHOR !
        text2ModelTr.translate(te.getLeftX(), te.getTopY());
        text2ModelTr.scale(
            te.getWidth() / image.getWidth(),
            -(te.getHeight() + te.getDepth()) / image.getHeight());
        // [pending]  should do something special to avoid dividing by 0 or setting a rescaling
        // factor to 0 [non invertible matrix] (java will throw an exception)
        syncFrame();
        SwingUtilities.invokeLater(
            new Thread() {
              public void run() {
                repaint(null);
              }
            });
        // repaint(null); // now that bitmap is available, we force a repaint() [pending]
        // smart-repaint ?
      } catch (Exception e) {
        e.printStackTrace();
      }
    }
  }
Beispiel #13
0
 public void drawScaledImage(BufferedImage im, int x, int y, float scale) {
   AffineTransform tx = new AffineTransform();
   tx.scale(scale, scale);
   BufferedImageOp op = new AffineTransformOp(tx, AffineTransformOp.TYPE_BILINEAR);
   drawImage(im, op, x, y);
 }