public void refreshFlameImage(
      Flame flame, boolean pDrawTriangles, double pFPS, long pFrame, boolean pDrawFPS) {
    FlamePanel imgPanel = getFlamePanel();
    if (imgPanel == null) return;
    Rectangle bounds = imgPanel.getImageBounds();
    int width = bounds.width;
    int height = bounds.height;
    if (width >= 16 && height >= 16) {
      RenderInfo info = new RenderInfo(width, height, RenderMode.PREVIEW);
      if (flame != null) {
        double oldSpatialFilterRadius = flame.getSpatialFilterRadius();
        double oldSampleDensity = flame.getSampleDensity();
        imgPanel.setDrawTriangles(pDrawTriangles);
        try {
          double wScl = (double) info.getImageWidth() / (double) flame.getWidth();
          double hScl = (double) info.getImageHeight() / (double) flame.getHeight();
          flame.setPixelsPerUnit((wScl + hScl) * 0.5 * flame.getPixelsPerUnit());
          flame.setWidth(info.getImageWidth());
          flame.setHeight(info.getImageHeight());

          Flame renderFlame = new FlamePreparer(prefs).createRenderFlame(flame);
          FlameRenderer renderer = new FlameRenderer(renderFlame, prefs, false, false);
          renderer.setProgressUpdater(null);
          RenderedFlame res = renderer.renderFlame(info);
          SimpleImage img = res.getImage();
          if (pDrawFPS) {
            TextTransformer txt = new TextTransformer();
            txt.setText1(
                "fps: "
                    + Tools.doubleToString(pFPS)
                    + ", time: "
                    + Tools.doubleToString(pFrame / 1000.0)
                    + "s");
            txt.setAntialiasing(false);
            txt.setColor(Color.LIGHT_GRAY);
            txt.setMode(Mode.NORMAL);
            txt.setFontStyle(FontStyle.PLAIN);
            txt.setFontName("Arial");
            txt.setFontSize(10);
            txt.setHAlign(HAlignment.LEFT);
            txt.setVAlign(VAlignment.BOTTOM);
            txt.transformImage(img);
          }
          imgPanel.setImage(img);
        } finally {
          flame.setSpatialFilterRadius(oldSpatialFilterRadius);
          flame.setSampleDensity(oldSampleDensity);
        }
      }
    } else {
      try {
        imgPanel.setImage(new SimpleImage(width, height));
      } catch (Exception ex) {
        ex.printStackTrace();
      }
    }
    flameRootPanel.repaint();
  }
 protected void readColors(String flameXML, Layer layer) {
   // Colors
   {
     int p = 0;
     while (true) {
       int ps = flameXML.indexOf("<color ", p + 1);
       if (ps < 0) break;
       int pe = flameXML.indexOf("/>", ps + 1);
       String hs = flameXML.substring(ps + 7, pe);
       {
         int index = 0;
         int r = 0, g = 0, b = 0;
         XMLAttributes atts = Tools.parseAttributes(hs);
         String attr;
         if ((attr = atts.get(ATTR_INDEX)) != null) {
           index = Integer.parseInt(attr);
         }
         if ((attr = atts.get(ATTR_RGB)) != null) {
           String s[] = attr.split(" ");
           r = Tools.FTOI(Double.parseDouble(s[0]));
           g = Tools.FTOI(Double.parseDouble(s[1]));
           b = Tools.FTOI(Double.parseDouble(s[2]));
         }
         layer.getPalette().setColor(index, r, g, b);
       }
       p = pe + 2;
     }
   }
   // Palette
   {
     int ps = flameXML.indexOf("<palette ");
     if (ps >= 0) {
       ps = flameXML.indexOf(">", ps + 1);
       int pe = flameXML.indexOf("</palette>", ps + 1);
       String hs = flameXML.substring(ps + 1, pe);
       StringBuilder sb = new StringBuilder();
       for (int i = 0; i < hs.length(); i++) {
         char c = hs.charAt(i);
         if ((c >= 'A' && c <= 'Z') || (c >= '0' && c <= '9')) {
           sb.append(c);
         }
       }
       hs = sb.toString();
       if ((hs.length() % 6) != 0) throw new RuntimeException("Invalid/unknown palette");
       int index = 0;
       for (int i = 0; i < hs.length(); i += 6) {
         int r = Integer.parseInt(hs.substring(i, i + 2), 16);
         int g = Integer.parseInt(hs.substring(i + 2, i + 4), 16);
         int b = Integer.parseInt(hs.substring(i + 4, i + 6), 16);
         // System.out.println(hs.substring(i, i + 2) + "#" + hs.substring(i + 2, i + 4) + "#" +
         // hs.substring(i + 4, i + 6));
         // System.out.println("  flame->palette->setColor(" + index + "," + r + "," + g + "," + b
         // + ");");
         layer.getPalette().setColor(index++, r, g, b);
       }
     }
   }
 }
 @Override
 public void setParameter(String pName, double pValue) {
   if (PARAM_MODE.equalsIgnoreCase(pName)) mode = Tools.FTOI(pValue);
   else if (PARAM_COLOR_MODE.equalsIgnoreCase(pName)) colorMode = Tools.FTOI(pValue);
   else if (PARAM_BIAS.equalsIgnoreCase(pName)) bias = pValue;
   else if (PARAM_SCALEX.equalsIgnoreCase(pName)) scaleX = pValue;
   else if (PARAM_SCALEY.equalsIgnoreCase(pName)) scaleY = pValue;
   else if (PARAM_OFFSETX.equalsIgnoreCase(pName)) offsetX = pValue;
   else if (PARAM_OFFSETY.equalsIgnoreCase(pName)) offsetY = pValue;
   else if (PARAM_OFFSETZ.equalsIgnoreCase(pName)) offsetZ = pValue;
   else if (PARAM_TILEX.equalsIgnoreCase(pName)) tileX = Tools.FTOI(pValue);
   else if (PARAM_TILEY.equalsIgnoreCase(pName)) tileY = Tools.FTOI(pValue);
   else throw new IllegalArgumentException(pName);
 }
 private static int morphColorValue(int pValue1, int pValue2, double pFScl) {
   if (pFScl < 0.0) {
     pFScl = 0.0;
   } else if (pFScl > 1.0) {
     pFScl = 1.0;
   }
   return Tools.roundColor((double) pValue1 + (double) (pValue2 - pValue1) * pFScl);
 }
 private static int morphValue(int pValue1, int pValue2, double pFScl) {
   if (pFScl < 0.0) {
     pFScl = 0.0;
   } else if (pFScl > 1.0) {
     pFScl = 1.0;
   }
   return Tools.FTOI(pValue1 + (double) (pValue2 - pValue1) * pFScl);
 }
Exemple #6
0
 @Override
 public void setParameter(String pName, double pValue) {
   if (PARAM_CELLSIZE.equalsIgnoreCase(pName)) cellsize = pValue;
   else if (PARAM_SPACE.equalsIgnoreCase(pName)) space = pValue;
   else if (PARAM_GAIN.equalsIgnoreCase(pName)) gain = pValue;
   else if (PARAM_INNER_TWIST.equalsIgnoreCase(pName)) inner_twist = pValue;
   else if (PARAM_OUTER_TWIST.equalsIgnoreCase(pName)) outer_twist = pValue;
   else if (PARAM_SEED.equalsIgnoreCase(pName)) seed = Tools.FTOI(pValue);
   else if (PARAM_RROT.equalsIgnoreCase(pName)) rrot = limitVal(pValue, 0, 1.0);
   else if (PARAM_RMIN.equalsIgnoreCase(pName)) rmin = limitVal(pValue, 0, 1.0);
   else if (PARAM_LOONIE_CHANCE.equalsIgnoreCase(pName)) loonie_chance = limitVal(pValue, 0, 1.0);
   else if (PARAM_PETALS_CHANCE.equalsIgnoreCase(pName)) petals_chance = limitVal(pValue, 0, 1.0);
   else if (PARAM_MIN_PETALS.equalsIgnoreCase(pName))
     minpetals = limitIntVal(Tools.FTOI(pValue), 1, 1000);
   else if (PARAM_MAX_PETALS.equalsIgnoreCase(pName))
     maxpetals = limitIntVal(Tools.FTOI(pValue), 1, 1000);
   else throw new IllegalArgumentException(pName);
 }
  public double evaluate(double pTime) {
    if (size() == 0) return 0.0;
    else if (size() == 1) return y[0];
    else if (pTime <= xmin) return y[0];
    else if (pTime >= xmax) return y[size() - 1];

    int indl = -1, indr = -1;
    InterpolatedPoints iPoints = getInterpolatedPoints(x, y, interpolation);
    double vSX[] = iPoints.getvSX();
    double vSY[] = iPoints.getvSY();
    int vSNum = vSX.length;

    if (useBisection) {
      int low = 0;
      int high = vSNum - 1;
      while (low <= high) {
        int mid = (low + high) >>> 1;
        double midVal = vSX[mid];
        if (midVal < pTime) {
          low = mid + 1;
          indl = mid;
        } else if (midVal > pTime) {
          indr = mid;
          high = mid - 1;
        } else {
          return vSY[mid];
        }
      }
    } else {
      for (int i = 0; i < vSNum; i++) {
        if (Tools.FTOI(vSX[i]) <= pTime) {
          indl = i;
        } else {
          indr = i;
          break;
        }
      }
    }

    if ((indl >= 0) && (indr >= 0)) {
      double xdist = vSX[indr] - vSX[indl];
      if (xdist < 0.00000001) return vSX[indl];
      else return vSY[indl] + (pTime - vSX[indl]) / xdist * (vSY[indr] - vSY[indl]);
    } else if (indl >= 0) {
      return vSY[indl];
    } else if (indr >= 0) {
      return vSY[indr];
    } else {
      return 0.0;
    }
  }
  private void setRandomFlameProperty(Layer pLayer, double pAmount) {
    List<VariationFunc> variations = new ArrayList<VariationFunc>();

    for (XForm xForm : pLayer.getXForms()) {
      addVariations(variations, xForm);
    }
    for (XForm xForm : pLayer.getFinalXForms()) {
      addVariations(variations, xForm);
    }
    filterVariations(variations);
    if (variations.size() > 0) {
      int idx = (int) (Math.random() * variations.size());
      VariationFunc var = variations.get(idx);
      int pIdx = (int) (Math.random() * var.getParameterNames().length);
      Object oldVal = var.getParameterValues()[pIdx];
      if (oldVal instanceof Integer) {
        int o = (Integer) oldVal;
        int da = Tools.FTOI(pAmount);
        if (da < 1) {
          da = 1;
        }
        if (o >= 0) {
          o += da;
        } else {
          o -= da;
        }
        var.setParameter(var.getParameterNames()[pIdx], o);
      } else if (oldVal instanceof Double) {
        double o = (Double) oldVal;
        if (o < EPSILON || Math.random() < 0.3) {
          if (o >= 0) {
            o += 0.1 * pAmount;
          } else {
            o -= 0.1 * pAmount;
          }
        } else {
          if (o >= 0) {
            o += o / 100.0 * pAmount;
          } else {
            o -= o / 100.0 * pAmount;
          }
        }
        var.setParameter(var.getParameterNames()[pIdx], o);
      }
    }
  }
 @Override
 public void setParameter(String pName, double pValue) {
   if (PARAM_NUMEDGES.equalsIgnoreCase(pName)) numEdges = Tools.FTOI(pValue);
   else if (PARAM_NUMSTRIPES.equalsIgnoreCase(pName)) numStripes = Tools.FTOI(pValue);
   else if (PARAM_RATIOSTRIPES.equalsIgnoreCase(pName)) ratioStripes = limitVal(pValue, 0.0, 2.0);
   else if (PARAM_RATIOHOLE.equalsIgnoreCase(pName)) ratioHole = limitVal(pValue, 0.0, 1.0);
   else if (PARAM_CIRCUMCIRCLE.equalsIgnoreCase(pName))
     circumCircle = limitIntVal(Tools.FTOI(pValue), 0, 1);
   else if (PARAM_ADJUSTTOLINEAR.equalsIgnoreCase(pName))
     adjustToLinear = limitIntVal(Tools.FTOI(pValue), 0, 1);
   else if (PARAM_EQUALBLUR.equalsIgnoreCase(pName))
     equalBlur = limitIntVal(Tools.FTOI(pValue), 0, 1);
   else if (PARAM_EXACTCALC.equalsIgnoreCase(pName))
     exactCalc = limitIntVal(Tools.FTOI(pValue), 0, 1);
   else if (PARAM_HIGHLIGHTEDGES.equalsIgnoreCase(pName)) highlightEdges = pValue;
   else throw new IllegalArgumentException(pName);
 }
  public ShadowCalculator(
      int rasterWidth,
      int rasterHeight,
      float[][] originXBuf,
      float[][] originYBuf,
      float[][] originZBuf,
      double imgSize,
      Flame flame) {
    this.rasterWidth = rasterWidth;
    this.rasterHeight = rasterHeight;
    this.originXBuf = originXBuf;
    this.originYBuf = originYBuf;
    this.originZBuf = originZBuf;

    lightCount = flame.getSolidRenderSettings().getLights().size();
    shadowZBuf = new float[lightCount][][];

    pre_shadowIndex = new int[lightCount];
    pre_shadowXBuf = new float[lightCount][];
    pre_shadowYBuf = new float[lightCount][];
    pre_shadowZBuf = new float[lightCount][];
    shadowMapXCentre = new double[lightCount];
    shadowMapYCentre = new double[lightCount];
    shadowMapXScale = new double[lightCount];
    shadowMapYScale = new double[lightCount];

    lightX = new double[lightCount];
    lightY = new double[lightCount];
    shadowIntensity = new double[lightCount];

    shadowMapSize = flame.getSolidRenderSettings().getShadowmapSize();
    if (shadowMapSize < 64) {
      shadowMapSize = 64;
    }
    shadowDistBias = flame.getSolidRenderSettings().getShadowmapBias();

    for (int i = 0; i < lightCount; i++) {
      DistantLight light = flame.getSolidRenderSettings().getLights().get(i);
      if (light.isCastShadows()) {
        shadowZBuf[i] = new float[shadowMapSize][shadowMapSize];
        pre_shadowXBuf[i] = new float[PRE_SHADOWMAP_SIZE];
        pre_shadowYBuf[i] = new float[PRE_SHADOWMAP_SIZE];
        pre_shadowZBuf[i] = new float[PRE_SHADOWMAP_SIZE];
        for (int k = 0; k < shadowZBuf[i].length; k++) {
          for (int l = 0; l < shadowZBuf[i][0].length; l++) {
            shadowZBuf[i][k][l] = NormalsCalculator.ZBUF_ZMIN;
          }
        }
        lightX[i] = light.getAltitude();
        lightY[i] = light.getAzimuth();
        shadowIntensity[i] = 1.0 - GfxMathLib.clamp(light.getShadowIntensity(), 0.0, 1.0);
      } else {
        shadowZBuf[i] = null;
        pre_shadowXBuf[i] = pre_shadowYBuf[i] = pre_shadowZBuf[i] = null;
      }
    }

    shadowSoften = ShadowType.SMOOTH.equals(flame.getSolidRenderSettings().getShadowType());

    double rawSmoothRadius = flame.getSolidRenderSettings().getShadowSmoothRadius();
    if (rawSmoothRadius < MathLib.EPSILON) {
      rawSmoothRadius = 0.0;
    }

    shadowSmoothRadius = clipSmoothRadius(Tools.FTOI(rawSmoothRadius * 6.0 * imgSize / 1000.0));
    if (shadowSmoothRadius < 1.0) {
      shadowSoften = false;
      shadowSmoothKernel = null;
    } else {
      shadowSmoothKernel = getShadowSmoothKernel(shadowSmoothRadius);
    }
  }
  protected void parseFlameAttributes(Flame pFlame, String pXML) {
    XMLAttributes atts = Tools.parseAttributes(pXML);
    String hs;
    if ((hs = atts.get(ATTR_NAME)) != null) {
      pFlame.setName(hs);
    }
    if ((hs = atts.get(ATTR_SIZE)) != null) {
      String s[] = hs.split(" ");
      pFlame.setWidth(Integer.parseInt(s[0]));
      pFlame.setHeight(Integer.parseInt(s[1]));
    }
    if ((hs = atts.get(ATTR_CENTER)) != null) {
      String s[] = hs.split(" ");
      pFlame.setCentreX(Double.parseDouble(s[0]));
      pFlame.setCentreY(Double.parseDouble(s[1]));
    }
    if ((hs = atts.get(ATTR_SCALE)) != null) {
      pFlame.setPixelsPerUnit(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_ROTATE)) != null) {
      //      pFlame.setCamRoll(-Double.parseDouble(hs) * 180.0 / Math.PI);
      pFlame.setCamRoll(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_FILTER)) != null) {
      pFlame.setSpatialFilterRadius(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_FILTER_KERNEL)) != null) {
      try {
        FilterKernelType kernel = FilterKernelType.valueOf(hs);
        pFlame.setSpatialFilterKernel(kernel);
      } catch (Exception ex) {
        ex.printStackTrace();
      }
    }
    // Disable DE filter and check if it is set explicitely on. There are lots of Apo flames out
    // there
    // which are carrying DE settings, but they were never used and may look terrible (e. g. DE max
    // radius 9.0)
    pFlame.setDeFilterEnabled(false);
    if ((hs = atts.get(ATTR_DE_FILTER_ENABLED)) != null) {
      pFlame.setDeFilterEnabled(Integer.parseInt(hs) == 1);
    }
    if ((hs = atts.get(ATTR_DE_FILTER_MAX_RADIUS)) != null) {
      pFlame.setDeFilterMaxRadius(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_DE_FILTER_MIN_RADIUS)) != null) {
      pFlame.setDeFilterMinRadius(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_DE_FILTER_CURVE)) != null) {
      pFlame.setDeFilterCurve(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_DE_FILTER_KERNEL)) != null) {
      try {
        FilterKernelType kernel = FilterKernelType.valueOf(hs);
        pFlame.setDeFilterKernel(kernel);
      } catch (Exception ex) {
        ex.printStackTrace();
      }
    }
    if ((hs = atts.get(ATTR_QUALITY)) != null) {
      pFlame.setSampleDensity(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_BACKGROUND)) != null) {
      String s[] = hs.split(" ");
      pFlame.setBGColorRed(Tools.roundColor(255.0 * Double.parseDouble(s[0])));
      pFlame.setBGColorGreen(Tools.roundColor(255.0 * Double.parseDouble(s[1])));
      pFlame.setBGColorBlue(Tools.roundColor(255.0 * Double.parseDouble(s[2])));
    }
    if ((hs = atts.get(ATTR_BRIGHTNESS)) != null) {
      pFlame.setBrightness(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_BG_TRANSPARENCY)) != null) {
      pFlame.setBGTransparency(Integer.parseInt(hs) == 1);
    } else {
      pFlame.setBGTransparency(prefs.isTinaDefaultBGTransparency());
    }
    if ((hs = atts.get(ATTR_GAMMA)) != null) {
      pFlame.setGamma(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_GAMMA_THRESHOLD)) != null) {
      pFlame.setGammaThreshold(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_VIBRANCY)) != null) {
      pFlame.setVibrancy(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_CONTRAST)) != null) {
      pFlame.setContrast(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_CAM_PERSP)) != null) {
      pFlame.setCamPerspective(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_CAM_PERSPECTIVE)) != null) {
      pFlame.setCamPerspective(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_CAM_ZPOS)) != null) {
      pFlame.setCamZ(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_CAM_XFOCUS)) != null) {
      pFlame.setFocusX(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_CAM_YFOCUS)) != null) {
      pFlame.setFocusY(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_CAM_ZFOCUS)) != null) {
      pFlame.setFocusZ(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_CAM_ZDIMISH)) != null) {
      pFlame.setDimishZ(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_CAM_DOF)) != null) {
      pFlame.setCamDOF(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_CAM_DOF_AREA)) != null) {
      pFlame.setCamDOFArea(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_CAM_DOF_EXPONENT)) != null) {
      pFlame.setCamDOFExponent(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_CAM_PITCH)) != null) {
      pFlame.setCamPitch(Double.parseDouble(hs) * 180.0 / Math.PI);
    }
    if ((hs = atts.get(ATTR_CAM_YAW)) != null) {
      pFlame.setCamYaw(Double.parseDouble(hs) * 180.0 / Math.PI);
    }
    if ((hs = atts.get(ATTR_CAM_ZOOM)) != null) {
      pFlame.setCamZoom(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_NEW_DOF)) != null) {
      pFlame.setNewCamDOF("1".equals(hs));
    }
    // preserve-z
    if ((hs = atts.get(ATTR_PRESERVE_Z)) != null) {
      pFlame.setPreserveZ("1".equals(hs));
    }
    // profiles
    if ((hs = atts.get(ATTR_RESOLUTION_PROFILE)) != null) {
      pFlame.setResolutionProfile(hs);
    }
    if ((hs = atts.get(ATTR_QUALITY_PROFILE)) != null) {
      pFlame.setQualityProfile(hs);
    }
    // Shading
    if ((hs = atts.get(ATTR_SHADING_SHADING)) != null) {
      try {
        pFlame.getShadingInfo().setShading(Shading.valueOf(hs));
      } catch (Exception ex) {
        pFlame.getShadingInfo().setShading(Shading.FLAT);
        ex.printStackTrace();
      }
    }
    if ((hs = atts.get(ATTR_SHADING_AMBIENT)) != null) {
      pFlame.getShadingInfo().setAmbient(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_SHADING_DIFFUSE)) != null) {
      pFlame.getShadingInfo().setDiffuse(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_SHADING_PHONG)) != null) {
      pFlame.getShadingInfo().setPhong(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_SHADING_PHONGSIZE)) != null) {
      pFlame.getShadingInfo().setPhongSize(Double.parseDouble(hs));
    }
    int lightCount;
    if ((hs = atts.get(ATTR_SHADING_LIGHTCOUNT)) != null) {
      lightCount = Integer.parseInt(hs);
    } else {
      lightCount = 0;
    }
    for (int i = 0; i < lightCount; i++) {
      if ((hs = atts.get(ATTR_SHADING_LIGHTPOSX_ + i)) != null) {
        pFlame.getShadingInfo().setLightPosX(i, Double.parseDouble(hs));
      }
      if ((hs = atts.get(ATTR_SHADING_LIGHTPOSY_ + i)) != null) {
        pFlame.getShadingInfo().setLightPosY(i, Double.parseDouble(hs));
      }
      if ((hs = atts.get(ATTR_SHADING_LIGHTPOSZ_ + i)) != null) {
        pFlame.getShadingInfo().setLightPosZ(i, Double.parseDouble(hs));
      }
      if ((hs = atts.get(ATTR_SHADING_LIGHTRED_ + i)) != null) {
        pFlame.getShadingInfo().setLightRed(i, Integer.parseInt(hs));
      }
      if ((hs = atts.get(ATTR_SHADING_LIGHTGREEN_ + i)) != null) {
        pFlame.getShadingInfo().setLightGreen(i, Integer.parseInt(hs));
      }
      if ((hs = atts.get(ATTR_SHADING_LIGHTBLUE_ + i)) != null) {
        pFlame.getShadingInfo().setLightBlue(i, Integer.parseInt(hs));
      }
    }
    if ((hs = atts.get(ATTR_SHADING_BLUR_RADIUS)) != null) {
      pFlame.getShadingInfo().setBlurRadius(Integer.parseInt(hs));
    }
    if ((hs = atts.get(ATTR_SHADING_BLUR_FADE)) != null) {
      pFlame.getShadingInfo().setBlurFade(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_SHADING_BLUR_FALLOFF)) != null) {
      pFlame.getShadingInfo().setBlurFallOff(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_NEW_LINEAR)) != null) {
      pFlame.setPreserveZ(hs.length() > 0 && Integer.parseInt(hs) == 1);
    }

    if ((hs = atts.get(ATTR_ANTIALIAS_AMOUNT)) != null) {
      pFlame.setAntialiasAmount(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_ANTIALIAS_RADIUS)) != null) {
      pFlame.setAntialiasRadius(Double.parseDouble(hs));
    }

    if ((hs = atts.get(ATTR_SHADING_DISTANCE_COLOR_RADIUS)) != null) {
      pFlame.getShadingInfo().setDistanceColorRadius(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_SHADING_DISTANCE_COLOR_SCALE)) != null) {
      pFlame.getShadingInfo().setDistanceColorScale(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_SHADING_DISTANCE_COLOR_EXPONENT)) != null) {
      pFlame.getShadingInfo().setDistanceColorExponent(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_SHADING_DISTANCE_COLOR_OFFSETX)) != null) {
      pFlame.getShadingInfo().setDistanceColorOffsetX(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_SHADING_DISTANCE_COLOR_OFFSETY)) != null) {
      pFlame.getShadingInfo().setDistanceColorOffsetY(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_SHADING_DISTANCE_COLOR_OFFSETZ)) != null) {
      pFlame.getShadingInfo().setDistanceColorOffsetZ(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_SHADING_DISTANCE_COLOR_STYLE)) != null) {
      pFlame.getShadingInfo().setDistanceColorStyle(Integer.parseInt(hs));
    }
    if ((hs = atts.get(ATTR_SHADING_DISTANCE_COLOR_COORDINATE)) != null) {
      pFlame.getShadingInfo().setDistanceColorCoordinate(Integer.parseInt(hs));
    }
    if ((hs = atts.get(ATTR_SHADING_DISTANCE_COLOR_SHIFT)) != null) {
      pFlame.getShadingInfo().setDistanceColorShift(Double.parseDouble(hs));
    }
  }
 @Override
 public void setParameter(String pName, double pValue) {
   if (PARAM_PARITY.equalsIgnoreCase(pName)) parity = Tools.FTOI(pValue);
   else if (PARAM_N.equalsIgnoreCase(pName)) n = Tools.FTOI(pValue);
   else throw new IllegalArgumentException(pName);
 }
  protected void parseXFormAttributes(Flame pFlame, XForm pXForm, String pXML) {
    XMLAttributes atts = Tools.parseAttributes(pXML);
    String hs;
    if ((hs = atts.get(ATTR_NAME)) != null) {
      pXForm.setName(hs);
    }
    if ((hs = atts.get(ATTR_WEIGHT)) != null) {
      pXForm.setWeight(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_COLOR)) != null) {
      pXForm.setColor(Double.parseDouble(hs));
    }
    // legacy
    if ((hs = atts.get(ATTR_ANTIALIAS_AMOUNT)) != null) {
      double value = Double.parseDouble(hs);
      if (value > 0) pFlame.setAntialiasAmount(value);
    }
    // legacy
    if ((hs = atts.get(ATTR_ANTIALIAS_RADIUS)) != null) {
      double value = Double.parseDouble(hs);
      if (value > 0) pFlame.setAntialiasRadius(value);
    }
    if ((hs = atts.get(ATTR_OPACITY)) != null) {
      double opacity = Double.parseDouble(hs);
      pXForm.setOpacity(opacity);
      if (Math.abs(opacity) <= MathLib.EPSILON) {
        pXForm.setDrawMode(DrawMode.HIDDEN);
      } else if (Math.abs(opacity - 1.0) > MathLib.EPSILON) {
        pXForm.setDrawMode(DrawMode.OPAQUE);
      } else {
        pXForm.setDrawMode(DrawMode.NORMAL);
      }
    }
    if ((hs = atts.get(ATTR_SYMMETRY)) != null) {
      pXForm.setColorSymmetry(Double.parseDouble(hs));
    }
    if ((hs = atts.get(ATTR_COEFS)) != null) {
      String s[] = hs.split(" ");
      pXForm.setCoeff00(Double.parseDouble(s[0]));
      pXForm.setCoeff01(Double.parseDouble(s[1]));
      pXForm.setCoeff10(Double.parseDouble(s[2]));
      pXForm.setCoeff11(Double.parseDouble(s[3]));
      pXForm.setCoeff20(Double.parseDouble(s[4]));
      pXForm.setCoeff21(Double.parseDouble(s[5]));
    }
    if ((hs = atts.get(ATTR_POST)) != null) {
      String s[] = hs.split(" ");
      pXForm.setPostCoeff00(Double.parseDouble(s[0]));
      pXForm.setPostCoeff01(Double.parseDouble(s[1]));
      pXForm.setPostCoeff10(Double.parseDouble(s[2]));
      pXForm.setPostCoeff11(Double.parseDouble(s[3]));
      pXForm.setPostCoeff20(Double.parseDouble(s[4]));
      pXForm.setPostCoeff21(Double.parseDouble(s[5]));
    }
    if ((hs = atts.get(ATTR_CHAOS)) != null) {
      String s[] = hs.split(" ");
      for (int i = 0; i < s.length; i++) {
        pXForm.getModifiedWeights()[i] = Double.parseDouble(s[i]);
      }
    }
    // variations
    {
      List<String> variationNameList = VariationFuncList.getNameList();
      Map<String, String> aliasMap = VariationFuncList.getAliasMap();

      for (XMLAttribute attr : atts.getAttributes()) {
        String rawName = attr.getName();
        String name = removeIndexFromAttr(rawName);
        String varName = name;
        boolean hasVariation = variationNameList.indexOf(varName) >= 0;
        if (!hasVariation) {
          String aliasName = aliasMap.get(name);
          if (aliasName != null) {
            varName = aliasName;
            hasVariation = variationNameList.indexOf(varName) >= 0;
          }
        }
        if (hasVariation) {
          VariationFunc varFunc = VariationFuncList.getVariationFuncInstance(varName);
          Variation variation = pXForm.addVariation(Double.parseDouble(atts.get(name)), varFunc);
          // params
          {
            String paramNames[] = variation.getFunc().getParameterNames();
            String paramAltNames[] = variation.getFunc().getParameterAlternativeNames();
            if (paramNames != null) {
              if (paramAltNames != null && paramAltNames.length != paramNames.length) {
                paramAltNames = null;
              }
              for (int i = 0; i < paramNames.length; i++) {
                String pName = paramNames[i];
                String pHs;
                if ((pHs = atts.get(rawName + "_" + pName)) != null) {
                  variation.getFunc().setParameter(pName, Double.parseDouble(pHs));
                }
                // altNames can only be come from flames which were not created by JWF, so no need
                // to handle index here
                else if (paramAltNames != null && ((pHs = atts.get(paramAltNames[i])) != null)) {
                  variation.getFunc().setParameter(pName, Double.parseDouble(pHs));
                }
              }
            }
          }
          // ressources
          {
            String ressNames[] = variation.getFunc().getRessourceNames();
            if (ressNames != null) {
              for (String pName : ressNames) {
                String pHs;
                if ((pHs = atts.get(name + "_" + pName)) != null) {
                  variation.getFunc().setRessource(pName, Tools.hexStringToByteArray(pHs));
                }
              }
            }
          }
          //
        }
      }
    }
  }
  private static Flame morphFlames_morph(
      Prefs pPrefs, Flame pFlame1, Flame pFlame2, int pFrame, int pFrames) {
    if (pFrame < 1 || pFrames < 2) return pFlame1;
    double fScl = (double) (pFrame - 1) / (pFrames - 1);
    if (fScl <= MathLib.EPSILON) {
      return pFlame1;
    } else if (fScl >= 1.0 - MathLib.EPSILON) {
      return pFlame2;
    }
    Flame res = pFlame1.makeCopy();
    res.getLayers().clear();
    int layerSize1 = pFlame1.getLayers().size();
    int layerSize2 = pFlame2.getLayers().size();
    int maxLayerSize = layerSize1 > layerSize2 ? layerSize1 : layerSize2;
    for (int lIdx = 0; lIdx < maxLayerSize; lIdx++) {
      Layer layer = new Layer();
      res.getLayers().add(layer);
      // Morph layers
      if (lIdx < layerSize1 && lIdx < layerSize2) {
        Layer layer1 = pFlame1.getLayers().get(lIdx);
        Layer layer2 = pFlame2.getLayers().get(lIdx);
        layer.assign(layer1);
        layer.getXForms().clear();
        layer.getFinalXForms().clear();
        layer.setWeight(morphValue(layer1.getWeight(), layer2.getWeight(), fScl));
        // morph XForms
        {
          int size1 = layer1.getXForms().size();
          int size2 = layer2.getXForms().size();
          int maxSize = size1 > size2 ? size1 : size2;
          for (int i = 0; i < maxSize; i++) {
            XForm xForm1 = i < size1 ? layer1.getXForms().get(i) : null;
            if (xForm1 == null) {
              xForm1 = new XForm();
              xForm1.addVariation(
                  0.0, VariationFuncList.getVariationFuncInstance("linear3D", true));
              xForm1.setWeight(0.0);
            }

            XForm xForm2 = i < size2 ? layer2.getXForms().get(i) : null;
            if (xForm2 == null) {
              xForm2 = new XForm();
              xForm2.addVariation(
                  0.0, VariationFuncList.getVariationFuncInstance("linear3D", true));
              xForm2.setWeight(0.0);
            }

            XForm morphedXForm = morphXForms(pPrefs, xForm1, xForm2, fScl, pFrame, pFrames);
            layer.getXForms().add(morphedXForm);
          }
        }
        // morph final XForms
        {
          int size1 = layer1.getFinalXForms().size();
          int size2 = layer2.getFinalXForms().size();
          int maxSize = size1 > size2 ? size1 : size2;
          for (int i = 0; i < maxSize; i++) {
            XForm xForm1 = i < size1 ? layer1.getFinalXForms().get(i) : null;
            if (xForm1 == null) {
              xForm1 = new XForm();
              xForm1.addVariation(
                  0.0, VariationFuncList.getVariationFuncInstance("linear3D", true));
              xForm1.setWeight(0.0);
            }

            XForm xForm2 = i < size2 ? layer2.getFinalXForms().get(i) : null;
            if (xForm2 == null) {
              xForm2 = new XForm();
              xForm2.addVariation(
                  0.0, VariationFuncList.getVariationFuncInstance("linear3D", true));
              xForm2.setWeight(0.0);
            }

            XForm morphedXForm = morphXForms(pPrefs, xForm1, xForm2, fScl, pFrame, pFrames);
            layer.getFinalXForms().add(morphedXForm);
          }
        }
        // morph colors
        RGBPalette palette1 = layer1.getPalette();
        RGBPalette palette2 = layer2.getPalette();
        for (int i = 0; i < RGBPalette.PALETTE_SIZE; i++) {
          RGBColor color1 = palette1.getColor(i);
          RGBColor color2 = palette2.getColor(i);
          int red = Tools.roundColor(color1.getRed() + (color2.getRed() - color1.getRed()) * fScl);
          int green =
              Tools.roundColor(color1.getGreen() + (color2.getGreen() - color1.getGreen()) * fScl);
          int blue =
              Tools.roundColor(color1.getBlue() + (color2.getBlue() - color1.getBlue()) * fScl);
          layer.getPalette().setColor(i, red, green, blue);
        }
      }
      // fade out layer1 to black
      else if (lIdx < layerSize1) {
        Layer layer1 = pFlame1.getLayers().get(lIdx);
        layer.assign(layer1);
        layer.setWeight(morphValue(layer1.getWeight(), 0.0, fScl));
      }
      // fade in layer2 from black
      else if (lIdx < layerSize2) {
        Layer layer2 = pFlame2.getLayers().get(lIdx);
        layer.assign(layer2);
        layer.setWeight(morphValue(0.0, layer2.getWeight(), fScl));
      }
    }
    // morph camera settings etc.
    morphFlameValues(pFlame1, pFlame2, fScl, res);
    return res;
  }
Exemple #15
0
  @Override
  protected void fillImage(SimpleImage res) {
    int width = res.getImageWidth();
    int height = res.getImageHeight();
    Random rnd = new Random();
    rnd.setSeed(this.seed);
    double cover = 1.0 - this.cover;
    double aspect = (double) width / (double) height;
    int frequency = this.initialFrequency;
    int frequencyX = (int) (frequency * aspect + 0.5);
    int frequencyY = (int) (frequency * aspect + 0.5);
    double alphaInt = 1.0f;
    BufferedImage mainImage = res.getBufferedImg();
    Graphics2D mainGr = mainImage.createGraphics();

    for (int i = 0; i < this.octaves; i++) {
      // create a small random image
      BufferedImage rndMap = new BufferedImage(frequencyX, frequencyY, BufferedImage.TYPE_INT_ARGB);
      {
        Graphics2D g = rndMap.createGraphics();
        try {
          switch (colorMode) {
            case COLOR:
              for (int x = 0; x < frequencyX; x++) {
                for (int y = 0; y < frequencyY; y++) {
                  int rVal = rnd.nextInt(255);
                  int gVal = rnd.nextInt(255);
                  int bVal = rnd.nextInt(255);
                  g.setColor(new Color(rVal, gVal, bVal, (int) (255.0 * alphaInt + 0.5)));
                  g.fillRect(x, y, 1, 1);
                }
              }
              break;
            case GREY:
              for (int x = 0; x < frequencyX; x++) {
                for (int y = 0; y < frequencyY; y++) {
                  int val = rnd.nextInt(255);
                  g.setColor(new Color(val, val, val, (int) (255.0 * alphaInt + 0.5)));
                  g.fillRect(x, y, 1, 1);
                }
              }
              break;
            case BASE_COLOR:
              int rBase = this.cloudColor.getRed();
              int gBase = this.cloudColor.getGreen();
              int bBase = this.cloudColor.getBlue();
              for (int x = 0; x < frequencyX; x++) {
                for (int y = 0; y < frequencyY; y++) {
                  int val = rnd.nextInt(255);
                  int rVal = (rBase * val) / 255;
                  int gVal = (gBase * val) / 255;
                  int bVal = (bBase * val) / 255;
                  g.setColor(new Color(rVal, gVal, bVal, (int) (255.0 * alphaInt + 0.5)));
                  g.fillRect(x, y, 1, 1);
                }
              }
              break;
          }
        } finally {
          g.dispose();
        }
      }
      // scale up the image using Java-built-in interpolation
      {
        BufferedImage scaledRndMap = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB);
        Graphics2D g = scaledRndMap.createGraphics();
        try {
          g.setRenderingHint(
              RenderingHints.KEY_INTERPOLATION, RenderingHints.VALUE_INTERPOLATION_BICUBIC);
          g.drawImage(rndMap, 0, 0, width, height, 0, 0, frequencyX, frequencyY, null);
        } finally {
          g.dispose();
        }
        mainGr.drawImage(scaledRndMap, null, 0, 0);
      }
      alphaInt *= this.persistence;
      frequency += frequency;
      frequencyX = (int) (frequency * aspect + 0.5);
      frequencyY = (int) (frequency * aspect + 0.5);
    }
    // apply an exponential filter to let the noise more look like clouds
    if (mode == Mode.CLOUDS) {
      final double rWeight = 0.2990;
      final double gWeight = 0.5880;
      final double bWeight = 0.1130;
      SimpleImage bgImg = (this.backgroundImg != null) ? backgroundImg.getImage() : null;
      Pixel pixel = new Pixel();
      Pixel bgPixel = new Pixel();
      for (int i = 0; i < mainImage.getWidth(); i++) {
        for (int j = 0; j < mainImage.getHeight(); j++) {
          pixel.setARGBValue(res.getARGBValue(i, j));
          double lum = pixel.r * rWeight + pixel.g * gWeight + pixel.b * bWeight;
          double c = lum - (cover * 255);
          if (c < 0) c = 0;
          int iVal = Tools.roundColor(255.0 - (Math.pow(this.sharpness, c) * 255.0));
          int bgRed = 0, bgGreen = 0, bgBlue = 0;
          switch (bgMode) {
            case IMAGE:
              if (bgImg != null) {
                bgPixel.setARGBValue(bgImg.getARGBValueIgnoreBounds(i, j));
                bgRed = bgPixel.r;
                bgGreen = bgPixel.g;
                bgBlue = bgPixel.b;
              }
              break;
            case COLOR:
              bgRed = this.bgColor.getRed();
              bgGreen = this.bgColor.getGreen();
              bgBlue = this.bgColor.getBlue();
              break;
          }
          switch (colorMode) {
            case GREY:
              pixel.r = expose(iVal + 1.5 * bgRed);
              pixel.g = expose(iVal + 1.5 * bgGreen);
              pixel.b = expose(iVal + 1.5 * bgBlue);
              break;
            default:
              pixel.r = expose((iVal * pixel.r) / 255 + 1.5 * bgRed);
              pixel.g = expose((iVal * pixel.g) / 255 + 1.5 * bgGreen);
              pixel.b = expose((iVal * pixel.b) / 255 + 1.5 * bgBlue);
              break;
          }
          res.setRGB(i, j, pixel);
        }
      }
    }
  }
Exemple #16
0
 private int expose(double light) {
   double exposure = -0.002;
   return Tools.roundColor((1.0 - Math.exp(light * exposure)) * 255.0 + 100);
 }
  public void transform(
      FlameTransformationContext pContext,
      XForm pXForm,
      XYZPoint pAffineTP,
      XYZPoint pVarTP,
      double pAmount,
      double pInputX,
      double pInputY) {
    double x = (pInputX - (offsetX + 0.5) + 1.0) / scaleX * (double) (imgWidth - 1);
    double y = (pInputY - (offsetY + 0.5) + 1.0) / scaleY * (double) (imgHeight - 1);
    int ix = Tools.FTOI(x);
    int iy = Tools.FTOI(y);
    if (this.tileX == 1) {
      if (ix < 0) {
        int nx = ix / imgWidth - 1;
        ix -= nx * imgWidth;
      } else if (ix >= imgWidth) {
        int nx = ix / imgWidth;
        ix -= nx * imgWidth;
      }
    }
    if (this.tileY == 1) {
      if (iy < 0) {
        int ny = iy / imgHeight - 1;
        iy -= ny * imgHeight;
      } else if (iy >= imgHeight) {
        int ny = iy / imgHeight;
        iy -= ny * imgHeight;
      }
    }

    double r, g, b;
    if (ix >= 0 && ix < imgWidth && iy >= 0 && iy < imgHeight) {
      if (colorMap instanceof SimpleImage) {
        toolPixel.setARGBValue(((SimpleImage) colorMap).getARGBValue(ix, iy));
        r = (double) toolPixel.r / 255.0;
        g = (double) toolPixel.g / 255.0;
        b = (double) toolPixel.b / 255.0;
      } else {
        ((SimpleHDRImage) colorMap).getRGBValues(rgbArray, ix, iy);
        r = rgbArray[0];
        g = rgbArray[0];
        b = rgbArray[0];
      }
    } else {
      return;
    }

    switch (mode) {
      case MODE_TRANSLATE:
        {
          double amountX = (r - 0.5) * pAmount;
          double amountY = (g - 0.5) * pAmount;
          pVarTP.x += amountX;
          pVarTP.y += amountY;
        }
        break;
      case MODE_SCALE:
        {
          double intensity = calcIntensity(r, g, b) - bias;
          if (intensity > 0.0) {
            double scl = 1.0 + (intensity - 0.5) * pAmount;
            pVarTP.x *= scl;
            pVarTP.y *= scl;
          }
        }
        break;
      case MODE_SCISSOR:
        {
          double amountX = (r - 0.5) * pAmount;
          double amountY = (g - 0.5) * pAmount;
          double newx = pVarTP.x * amountX * amountY + pVarTP.y * amountY;
          double newy = pVarTP.x * amountY - pVarTP.y * amountX * amountY;
          pVarTP.x = newx;
          pVarTP.y = newy;
        }
        break;
      case MODE_ROTATE:
      default:
        {
          double intensity = calcIntensity(r, g, b) - bias;
          if (intensity > 0.0) {
            double angle = intensity * M_2PI * pAmount;
            double sina = sin(angle);
            double cosa = cos(angle);
            double xnew = pVarTP.x * cosa - pVarTP.y * sina;
            double ynew = pVarTP.x * sina + pVarTP.y * cosa;
            pVarTP.x = xnew;
            pVarTP.y = ynew;
          }
        }
    }

    switch (colorMode) {
      case COLOR_MODE_INHERIT:
        {
          pVarTP.rgbColor = true;
          pVarTP.redColor = r;
          pVarTP.greenColor = g;
          pVarTP.blueColor = b;
          pVarTP.color = getColorIdx(r, g, b);
        }
        break;
    }
  }
 @Override
 public void init(
     FlameTransformationContext pContext, Layer pLayer, XForm pXForm, double pAmount) {
   absPower = iabs(Tools.FTOI(power));
   cPower = dist / power * 0.5;
 }