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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
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* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
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* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
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package sun.font;
import java.io.*;
import java.util.*;
import sun.awt.*;
import sun.java2d.xr.*;
/**
* Glyph cache used by the XRender pipeline.
*
* @author Clemens Eisserer
*/
public class XRGlyphCache implements GlyphDisposedListener {
XRBackend con;
XRCompositeManager maskBuffer;
HashMap<MutableInteger, XRGlyphCacheEntry> cacheMap = new HashMap<MutableInteger, XRGlyphCacheEntry>(256);
int nextID = 1;
MutableInteger tmp = new MutableInteger(0);
int grayGlyphSet;
int lcdGlyphSet;
int time = 0;
int cachedPixels = 0;
static final int MAX_CACHED_PIXELS = 100000;
ArrayList<Integer> freeGlyphIDs = new ArrayList<Integer>(255);
static final boolean batchGlyphUpload = true; // Boolean.parseBoolean(System.getProperty("sun.java2d.xrender.batchGlyphUpload"));
public XRGlyphCache(XRCompositeManager maskBuf) {
this.con = maskBuf.getBackend();
this.maskBuffer = maskBuf;
grayGlyphSet = con.XRenderCreateGlyphSet(XRUtils.PictStandardA8);
lcdGlyphSet = con.XRenderCreateGlyphSet(XRUtils.PictStandardARGB32);
StrikeCache.addGlyphDisposedListener(this);
}
public void glyphDisposed(ArrayList<Long> glyphPtrList) {
try {
SunToolkit.awtLock();
GrowableIntArray glyphIDList = new GrowableIntArray(1, glyphPtrList.size());
for (long glyphPtr : glyphPtrList) {
int glyphID = XRGlyphCacheEntry.getGlyphID(glyphPtr);
//Check if glyph hasn't been freed already
if (glyphID != 0) {
glyphIDList.addInt(glyphID);
}
}
freeGlyphs(glyphIDList);
} finally {
SunToolkit.awtUnlock();
}
}
protected int getFreeGlyphID() {
if (freeGlyphIDs.size() > 0) {
int newID = freeGlyphIDs.remove(freeGlyphIDs.size() - 1);
return newID;
}
return nextID++;
}
protected XRGlyphCacheEntry getEntryForPointer(long imgPtr) {
int id = XRGlyphCacheEntry.getGlyphID(imgPtr);
if (id == 0) {
return null;
}
tmp.setValue(id);
return cacheMap.get(tmp);
}
public XRGlyphCacheEntry[] cacheGlyphs(GlyphList glyphList) {
time++;
XRGlyphCacheEntry[] entries = new XRGlyphCacheEntry[glyphList.getNumGlyphs()];
long[] imgPtrs = glyphList.getImages();
ArrayList<XRGlyphCacheEntry> uncachedGlyphs = null;
for (int i = 0; i < glyphList.getNumGlyphs(); i++) {
XRGlyphCacheEntry glyph;
if (imgPtrs[i] == 0L) {
continue;
}
// Find uncached glyphs and queue them for upload
if ((glyph = getEntryForPointer(imgPtrs[i])) == null) {
glyph = new XRGlyphCacheEntry(imgPtrs[i], glyphList);
glyph.setGlyphID(getFreeGlyphID());
cacheMap.put(new MutableInteger(glyph.getGlyphID()), glyph);
if (uncachedGlyphs == null) {
uncachedGlyphs = new ArrayList<XRGlyphCacheEntry>();
}
uncachedGlyphs.add(glyph);
}
glyph.setLastUsed(time);
entries[i] = glyph;
}
// Add glyphs to cache
if (uncachedGlyphs != null) {
uploadGlyphs(entries, uncachedGlyphs, glyphList, null);
}
return entries;
}
protected void uploadGlyphs(XRGlyphCacheEntry[] glyphs, ArrayList<XRGlyphCacheEntry> uncachedGlyphs, GlyphList gl, int[] glIndices) {
for (XRGlyphCacheEntry glyph : uncachedGlyphs) {
cachedPixels += glyph.getPixelCnt();
}
if (cachedPixels > MAX_CACHED_PIXELS) {
clearCache(glyphs);
}
boolean containsLCDGlyphs = containsLCDGlyphs(uncachedGlyphs);
List<XRGlyphCacheEntry>[] seperatedGlyphList = seperateGlyphTypes(uncachedGlyphs, containsLCDGlyphs);
List<XRGlyphCacheEntry> grayGlyphList = seperatedGlyphList[0];
List<XRGlyphCacheEntry> lcdGlyphList = seperatedGlyphList[1];
/*
* Some XServers crash when uploading multiple glyphs at once. TODO:
* Implement build-switch in local case for distributors who know their
* XServer is fixed
*/
if (batchGlyphUpload) {
if (grayGlyphList != null && grayGlyphList.size() > 0) {
con.XRenderAddGlyphs(grayGlyphSet, gl, grayGlyphList, generateGlyphImageStream(grayGlyphList));
}
if (lcdGlyphList != null && lcdGlyphList.size() > 0) {
con.XRenderAddGlyphs(lcdGlyphSet, gl, lcdGlyphList, generateGlyphImageStream(lcdGlyphList));
}
} else {
ArrayList<XRGlyphCacheEntry> tmpList = new ArrayList<XRGlyphCacheEntry>(1);
tmpList.add(null);
for (XRGlyphCacheEntry entry : uncachedGlyphs) {
tmpList.set(0, entry);
if (entry.getGlyphSet() == grayGlyphSet) {
con.XRenderAddGlyphs(grayGlyphSet, gl, tmpList, generateGlyphImageStream(tmpList));
} else {
con.XRenderAddGlyphs(lcdGlyphSet, gl, tmpList, generateGlyphImageStream(tmpList));
}
}
}
}
/**
* Seperates lcd and grayscale glyphs queued for upload, and sets the
* appropriate glyphset for the cache entries.
*/
protected List<XRGlyphCacheEntry>[] seperateGlyphTypes(List<XRGlyphCacheEntry> glyphList, boolean containsLCDGlyphs) {
ArrayList<XRGlyphCacheEntry> lcdGlyphs = null;
ArrayList<XRGlyphCacheEntry> grayGlyphs = null;
for (XRGlyphCacheEntry cacheEntry : glyphList) {
if (cacheEntry.isGrayscale(containsLCDGlyphs)) {
if (grayGlyphs == null) {
grayGlyphs = new ArrayList<>(glyphList.size());
}
cacheEntry.setGlyphSet(grayGlyphSet);
grayGlyphs.add(cacheEntry);
} else {
if (lcdGlyphs == null) {
lcdGlyphs = new ArrayList<>(glyphList.size());
}
cacheEntry.setGlyphSet(lcdGlyphSet);
lcdGlyphs.add(cacheEntry);
}
}
// Arrays and generics don't play well together
@SuppressWarnings({"unchecked", "rawtypes"})
List<XRGlyphCacheEntry>[] tmp =
(List<XRGlyphCacheEntry>[]) (new List[] { grayGlyphs, lcdGlyphs });
return tmp;
}
/**
* Copies the glyph-images into a continous buffer, required for uploading.
*/
protected byte[] generateGlyphImageStream(List<XRGlyphCacheEntry> glyphList) {
boolean isLCDGlyph = glyphList.get(0).getGlyphSet() == lcdGlyphSet;
ByteArrayOutputStream stream = new ByteArrayOutputStream((isLCDGlyph ? 4 : 1) * 48 * glyphList.size());
for (XRGlyphCacheEntry cacheEntry : glyphList) {
cacheEntry.writePixelData(stream, isLCDGlyph);
}
return stream.toByteArray();
}
protected boolean containsLCDGlyphs(List<XRGlyphCacheEntry> entries) {
boolean containsLCDGlyphs = false;
for (XRGlyphCacheEntry entry : entries) {
containsLCDGlyphs = !(entry.getSourceRowBytes() == entry.getWidth());
if (containsLCDGlyphs) {
return true;
}
}
return false;
}
protected void clearCache(XRGlyphCacheEntry[] glyps) {
/*
* Glyph uploading is so slow anyway, we can afford some inefficiency
* here, as the cache should usually be quite small. TODO: Implement
* something not that stupid ;)
*/
ArrayList<XRGlyphCacheEntry> cacheList = new ArrayList<XRGlyphCacheEntry>(cacheMap.values());
Collections.sort(cacheList, new Comparator<XRGlyphCacheEntry>() {
public int compare(XRGlyphCacheEntry e1, XRGlyphCacheEntry e2) {
return e2.getLastUsed() - e1.getLastUsed();
}
});
for (XRGlyphCacheEntry glyph : glyps) {
glyph.setPinned();
}
GrowableIntArray deleteGlyphList = new GrowableIntArray(1, 10);
int pixelsToRelease = cachedPixels - MAX_CACHED_PIXELS;
for (int i = cacheList.size() - 1; i >= 0 && pixelsToRelease > 0; i--) {
XRGlyphCacheEntry entry = cacheList.get(i);
if (!entry.isPinned()) {
pixelsToRelease -= entry.getPixelCnt();
deleteGlyphList.addInt(entry.getGlyphID());
}
}
for (XRGlyphCacheEntry glyph : glyps) {
glyph.setUnpinned();
}
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