package sun.java2d.xr;
import java.awt.*;
import java.awt.geom.*;
import java.security.AccessController;
import java.security.PrivilegedAction;
import sun.font.*;
import sun.java2d.*;
import sun.java2d.loops.*;
public class XRCompositeManager {
private static boolean enableGradCache = true;
private static XRCompositeManager instance;
private static final int SOLID = 0;
private static final int TEXTURE = 1;
private static final int GRADIENT = 2;
int srcType;
XRSolidSrcPict solidSrc32;
XRSurfaceData texture;
XRSurfaceData gradient;
int alphaMask = XRUtils.None;
XRColor solidColor = new XRColor();
float = 1.0f;
byte compRule = XRUtils.PictOpOver;
XRColor alphaColor = new XRColor();
XRSurfaceData solidSrcPict;
int alphaMaskPict;
int gradCachePixmap;
int gradCachePicture;
boolean xorEnabled = false;
int validatedPixel = 0;
Composite validatedComp;
Paint validatedPaint;
float = 1.0f;
XRBackend con;
MaskTileManager maskBuffer;
XRTextRenderer textRenderer;
XRMaskImage maskImage;
public static synchronized XRCompositeManager getInstance(
XRSurfaceData surface) {
if (instance == null) {
instance = new XRCompositeManager(surface);
}
return instance;
}
private XRCompositeManager(XRSurfaceData surface) {
con = new XRBackendNative();
String gradProp =
AccessController.doPrivileged(new PrivilegedAction<String>() {
public String run() {
return System.getProperty("sun.java2d.xrgradcache");
}
});
enableGradCache = gradProp == null ||
!(gradProp.equalsIgnoreCase("false") ||
gradProp.equalsIgnoreCase("f"));
XRPaints.register(this);
initResources(surface);
maskBuffer = new MaskTileManager(this, surface.getXid());
textRenderer = new XRTextRenderer(this);
maskImage = new XRMaskImage(this, surface.getXid());
}
public void initResources(XRSurfaceData surface) {
int parentXid = surface.getXid();
solidSrc32 = new XRSolidSrcPict(con, parentXid);
setForeground(0);
int extraAlphaMask = con.createPixmap(parentXid, 8, 1, 1);
alphaMaskPict = con.createPicture(extraAlphaMask,
XRUtils.PictStandardA8);
con.setPictureRepeat(alphaMaskPict, XRUtils.RepeatNormal);
con.renderRectangle(alphaMaskPict, XRUtils.PictOpClear,
XRColor.NO_ALPHA, 0, 0, 1, 1);
if (enableGradCache) {
gradCachePixmap = con.createPixmap(parentXid, 32,
MaskTileManager.MASK_SIZE, MaskTileManager.MASK_SIZE);
gradCachePicture = con.createPicture(gradCachePixmap,
XRUtils.PictStandardARGB32);
}
}
public void setForeground(int pixel) {
solidColor.setColorValues(pixel);
}
public void setGradientPaint(XRSurfaceData gradient) {
if (this.gradient != null) {
con.freePicture(this.gradient.picture);
}
this.gradient = gradient;
srcType = GRADIENT;
}
public void setTexturePaint(XRSurfaceData texture) {
this.texture = texture;
this.srcType = TEXTURE;
}
public void XRResetPaint() {
srcType = SOLID;
}
public void validateCompositeState(Composite comp, AffineTransform xform,
Paint paint, SunGraphics2D sg2d) {
boolean updatePaint = (paint != validatedPaint) || paint == null;
if ((comp != validatedComp)) {
if (comp != null) {
setComposite(comp);
} else {
comp = AlphaComposite.getInstance(AlphaComposite.SRC_OVER);
setComposite(comp);
}
updatePaint = true;
validatedComp = comp;
}
if (sg2d != null && (validatedPixel != sg2d.pixel || updatePaint)) {
validatedPixel = sg2d.pixel;
setForeground(validatedPixel);
}
if (updatePaint) {
if (paint != null && sg2d != null
&& sg2d.paintState >= SunGraphics2D.PAINT_GRADIENT) {
XRPaints.setPaint(sg2d, paint);
} else {
XRResetPaint();
}
validatedPaint = paint;
}
if (srcType != SOLID) {
AffineTransform at = (AffineTransform) xform.clone();
try {
at.invert();
} catch (NoninvertibleTransformException e) {
at.setToIdentity();
}
getCurrentSource().validateAsSource(at, -1, XRUtils.ATransOpToXRQuality(sg2d.interpolationType));
}
}
private void setComposite(Composite comp) {
if (comp instanceof AlphaComposite) {
AlphaComposite aComp = (AlphaComposite) comp;
validatedExtraAlpha = aComp.getAlpha();
this.compRule = XRUtils.j2dAlphaCompToXR(aComp.getRule());
this.extraAlpha = validatedExtraAlpha;
if (extraAlpha == 1.0f) {
alphaMask = XRUtils.None;
alphaColor.alpha = XRColor.FULL_ALPHA.alpha;
} else {
alphaColor.alpha = XRColor
.byteToXRColorValue((int) (extraAlpha * 255));
alphaMask = alphaMaskPict;
con.renderRectangle(alphaMaskPict, XRUtils.PictOpSrc,
alphaColor, 0, 0, 1, 1);
}
xorEnabled = false;
} else if (comp instanceof XORComposite) {
xorEnabled = true;
} else {
throw new InternalError(
"Composite accaleration not implemented for: "
+ comp.getClass().getName());
}
}
public boolean maskRequired() {
return (!xorEnabled)
&& ((srcType != SOLID)
|| (srcType == SOLID && (solidColor.alpha != 0xffff) || (extraAlpha != 1.0f)));
}
public void XRComposite(int src, int mask, int dst, int srcX, int srcY,
int maskX, int maskY, int dstX, int dstY, int width, int height) {
int cachedSrc = (src == XRUtils.None) ? getCurrentSource().picture : src;
int cachedX = srcX;
int cachedY = srcY;
if (enableGradCache && gradient != null
&& cachedSrc == gradient.picture) {
con.renderComposite(XRUtils.PictOpSrc, gradient.picture,
XRUtils.None, gradCachePicture, srcX, srcY, 0, 0, 0, 0,
width, height);
cachedX = 0;
cachedY = 0;
cachedSrc = gradCachePicture;
}
con.renderComposite(compRule, cachedSrc, mask, dst, cachedX, cachedY,
maskX, maskY, dstX, dstY, width, height);
}
public void XRRenderRectangles(XRSurfaceData dst, GrowableRectArray rects) {
if (xorEnabled) {
con.GCRectangles(dst.getXid(), dst.getGC(), rects);
} else {
if (rects.getSize() == 1) {
con.renderRectangle(dst.getPicture(), compRule, solidColor,
rects.getX(0), rects.getY(0), rects.getWidth(0), rects.getHeight(0));
} else {
con.renderRectangles(dst.getPicture(), compRule, solidColor, rects);
}
}
}
public void XRCompositeRectangles(XRSurfaceData dst, GrowableRectArray rects) {
int srcPict = getCurrentSource().picture;
for(int i=0; i < rects.getSize(); i++) {
int x = rects.getX(i);
int y = rects.getY(i);
int width = rects.getWidth(i);
int height = rects.getHeight(i);
con.renderComposite(compRule, srcPict, XRUtils.None, dst.picture, x, y, 0, 0, x, y, width, height);
}
}
protected XRSurfaceData getCurrentSource() {
switch(srcType) {
case SOLID:
return solidSrc32.prepareSrcPict(validatedPixel);
case TEXTURE:
return texture;
case GRADIENT:
return gradient;
}
return null;
}
public void compositeBlit(XRSurfaceData src, XRSurfaceData dst, int sx,
int sy, int dx, int dy, int w, int h) {
con.renderComposite(compRule, src.picture, alphaMask, dst.picture, sx,
sy, 0, 0, dx, dy, w, h);
}
public void compositeText(XRSurfaceData dst, int sx, int sy, int glyphSet,
int maskFormat, GrowableEltArray elts) {
byte textCompRule = (compRule != XRUtils.PictOpSrc) ? compRule : XRUtils.PictOpOver;
con.XRenderCompositeText(textCompRule, getCurrentSource().picture, dst.picture,
maskFormat, sx, sy, 0, 0, glyphSet, elts);
}
public XRColor getMaskColor() {
return !isTexturePaintActive() ? XRColor.FULL_ALPHA : getAlphaColor();
}
public int () {
return alphaMask;
}
public boolean isTexturePaintActive() {
return srcType == TEXTURE;
}
public boolean isSolidPaintActive() {
return srcType == SOLID;
}
public XRColor getAlphaColor() {
return alphaColor;
}
public XRBackend getBackend() {
return con;
}
public float () {
return validatedExtraAlpha;
}
public byte getCompRule() {
return compRule;
}
public XRTextRenderer getTextRenderer() {
return textRenderer;
}
public MaskTileManager getMaskBuffer() {
return maskBuffer;
}
public XRMaskImage getMaskImage() {
return maskImage;
}
}