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src/java.desktop/share/classes/sun/java2d/marlin/MarlinTileGenerator.java
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*** 23,51 ****
* questions.
*/
package sun.java2d.marlin;
import sun.java2d.pipe.AATileGenerator;
import jdk.internal.misc.Unsafe;
final class MarlinTileGenerator implements AATileGenerator, MarlinConst {
! private static final int MAX_TILE_ALPHA_SUM = TILE_SIZE * TILE_SIZE
! * MAX_AA_ALPHA;
! private final Renderer rdr;
private final MarlinCache cache;
private int x, y;
! // per-thread renderer context
! final RendererContext rdrCtx;
! MarlinTileGenerator(Renderer r) {
! this.rdr = r;
! this.cache = r.cache;
! this.rdrCtx = r.rdrCtx;
}
MarlinTileGenerator init() {
this.x = cache.bboxX0;
this.y = cache.bboxY0;
--- 23,77 ----
* questions.
*/
package sun.java2d.marlin;
+ import java.util.Arrays;
import sun.java2d.pipe.AATileGenerator;
import jdk.internal.misc.Unsafe;
final class MarlinTileGenerator implements AATileGenerator, MarlinConst {
! private static final int MAX_TILE_ALPHA_SUM = TILE_W * TILE_H * MAX_AA_ALPHA;
! private static final int TH_AA_ALPHA_FILL_EMPTY = ((MAX_AA_ALPHA + 1) / 3); // 33%
! private static final int TH_AA_ALPHA_FILL_FULL = ((MAX_AA_ALPHA + 1) * 2 / 3); // 66%
!
! private static final int FILL_TILE_W = TILE_W >> 1; // half tile width
!
! static {
! if (MAX_TILE_ALPHA_SUM <= 0) {
! throw new IllegalStateException("Invalid MAX_TILE_ALPHA_SUM: " + MAX_TILE_ALPHA_SUM);
! }
! if (DO_TRACE) {
! System.out.println("MAX_AA_ALPHA : " + MAX_AA_ALPHA);
! System.out.println("TH_AA_ALPHA_FILL_EMPTY : " + TH_AA_ALPHA_FILL_EMPTY);
! System.out.println("TH_AA_ALPHA_FILL_FULL : " + TH_AA_ALPHA_FILL_FULL);
! System.out.println("FILL_TILE_W : " + FILL_TILE_W);
! }
! }
!
! private final Renderer rdrF;
! private final DRenderer rdrD;
private final MarlinCache cache;
private int x, y;
! // per-thread renderer stats
! final RendererStats rdrStats;
! MarlinTileGenerator(final RendererStats stats, final MarlinRenderer r,
! final MarlinCache cache)
! {
! this.rdrStats = stats;
! if (r instanceof Renderer) {
! this.rdrF = (Renderer)r;
! this.rdrD = null;
! } else {
! this.rdrF = null;
! this.rdrD = (DRenderer)r;
! }
! this.cache = cache;
}
MarlinTileGenerator init() {
this.x = cache.bboxX0;
this.y = cache.bboxY0;
*** 59,76 ****
*/
@Override
public void dispose() {
if (DO_MONITORS) {
// called from AAShapePipe.renderTiles() (render tiles end):
! rdrCtx.stats.mon_pipe_renderTiles.stop();
}
// dispose cache:
cache.dispose();
! // dispose renderer:
! rdr.dispose();
! // recycle the RendererContext instance
! MarlinRenderingEngine.returnRendererContext(rdrCtx);
}
void getBbox(int[] bbox) {
bbox[0] = cache.bboxX0;
bbox[1] = cache.bboxY0;
--- 85,105 ----
*/
@Override
public void dispose() {
if (DO_MONITORS) {
// called from AAShapePipe.renderTiles() (render tiles end):
! rdrStats.mon_pipe_renderTiles.stop();
}
// dispose cache:
cache.dispose();
! // dispose renderer and recycle the RendererContext instance:
! // bimorphic call optimization:
! if (rdrF != null) {
! rdrF.dispose();
! } else if (rdrD != null) {
! rdrD.dispose();
! }
}
void getBbox(int[] bbox) {
bbox[0] = cache.bboxX0;
bbox[1] = cache.bboxY0;
*** 84,105 ****
*/
@Override
public int getTileWidth() {
if (DO_MONITORS) {
// called from AAShapePipe.renderTiles() (render tiles start):
! rdrCtx.stats.mon_pipe_renderTiles.start();
}
! return TILE_SIZE;
}
/**
* Gets the height of the tiles that the generator batches output into.
* @return the height of the standard alpha tile
*/
@Override
public int getTileHeight() {
! return TILE_SIZE;
}
/**
* Gets the typical alpha value that will characterize the current
* tile.
--- 113,134 ----
*/
@Override
public int getTileWidth() {
if (DO_MONITORS) {
// called from AAShapePipe.renderTiles() (render tiles start):
! rdrStats.mon_pipe_renderTiles.start();
}
! return TILE_W;
}
/**
* Gets the height of the tiles that the generator batches output into.
* @return the height of the standard alpha tile
*/
@Override
public int getTileHeight() {
! return TILE_H;
}
/**
* Gets the typical alpha value that will characterize the current
* tile.
*** 129,139 ****
// would be needed here, since our caller needs to compute these 2
// values anyway.
final int alpha = (al == 0x00 ? 0x00
: (al == MAX_TILE_ALPHA_SUM ? 0xff : 0x80));
if (DO_STATS) {
! rdrCtx.stats.hist_tile_generator_alpha.add(alpha);
}
return alpha;
}
/**
--- 158,168 ----
// would be needed here, since our caller needs to compute these 2
// values anyway.
final int alpha = (al == 0x00 ? 0x00
: (al == MAX_TILE_ALPHA_SUM ? 0xff : 0x80));
if (DO_STATS) {
! rdrStats.hist_tile_generator_alpha.add(alpha);
}
return alpha;
}
/**
*** 141,158 ****
* Either this method, or the getAlpha() method should be called
* once per tile, but not both.
*/
@Override
public void nextTile() {
! if ((x += TILE_SIZE) >= cache.bboxX1) {
x = cache.bboxX0;
! y += TILE_SIZE;
if (y < cache.bboxY1) {
// compute for the tile line
// [ y; max(y + TILE_SIZE, bboxY1) ]
! this.rdr.endRendering(y);
}
}
}
/**
--- 170,192 ----
* Either this method, or the getAlpha() method should be called
* once per tile, but not both.
*/
@Override
public void nextTile() {
! if ((x += TILE_W) >= cache.bboxX1) {
x = cache.bboxX0;
! y += TILE_H;
if (y < cache.bboxY1) {
// compute for the tile line
// [ y; max(y + TILE_SIZE, bboxY1) ]
! // bimorphic call optimization:
! if (rdrF != null) {
! rdrF.endRendering(y);
! } else if (rdrD != null) {
! rdrD.endRendering(y);
! }
}
}
}
/**
*** 178,202 ****
*/
private void getAlphaNoRLE(final byte[] tile, final int offset,
final int rowstride)
{
if (DO_MONITORS) {
! rdrCtx.stats.mon_ptg_getAlpha.start();
}
// local vars for performance:
final MarlinCache _cache = this.cache;
final long[] rowAAChunkIndex = _cache.rowAAChunkIndex;
final int[] rowAAx0 = _cache.rowAAx0;
final int[] rowAAx1 = _cache.rowAAx1;
final int x0 = this.x;
! final int x1 = FloatMath.min(x0 + TILE_SIZE, _cache.bboxX1);
// note: process tile line [0 - 32[
final int y0 = 0;
! final int y1 = FloatMath.min(this.y + TILE_SIZE, _cache.bboxY1) - this.y;
if (DO_LOG_BOUNDS) {
MarlinUtils.logInfo("getAlpha = [" + x0 + " ... " + x1
+ "[ [" + y0 + " ... " + y1 + "[");
}
--- 212,236 ----
*/
private void getAlphaNoRLE(final byte[] tile, final int offset,
final int rowstride)
{
if (DO_MONITORS) {
! rdrStats.mon_ptg_getAlpha.start();
}
// local vars for performance:
final MarlinCache _cache = this.cache;
final long[] rowAAChunkIndex = _cache.rowAAChunkIndex;
final int[] rowAAx0 = _cache.rowAAx0;
final int[] rowAAx1 = _cache.rowAAx1;
final int x0 = this.x;
! final int x1 = FloatMath.min(x0 + TILE_W, _cache.bboxX1);
// note: process tile line [0 - 32[
final int y0 = 0;
! final int y1 = FloatMath.min(this.y + TILE_H, _cache.bboxY1) - this.y;
if (DO_LOG_BOUNDS) {
MarlinUtils.logInfo("getAlpha = [" + x0 + " ... " + x1
+ "[ [" + y0 + " ... " + y1 + "[");
}
*** 235,252 ****
for (end = x0; end < cx; end++) {
tile[idx++] = 0;
}
}
! // now: cx >= x0 but cx < aax0 (x1 < aax0)
// Copy AA data (sum alpha data):
addr = addr_rowAA + rowAAChunkIndex[cy] + (cx - aax0);
for (end = (aax1 <= x1) ? aax1 : x1; cx < end; cx++) {
// cx inside tile[x0; x1[ :
! tile[idx++] = _unsafe.getByte(addr); // [0..255]
addr += SIZE;
}
}
}
--- 269,286 ----
for (end = x0; end < cx; end++) {
tile[idx++] = 0;
}
}
! // now: cx >= x0 and cx >= aax0
// Copy AA data (sum alpha data):
addr = addr_rowAA + rowAAChunkIndex[cy] + (cx - aax0);
for (end = (aax1 <= x1) ? aax1 : x1; cx < end; cx++) {
// cx inside tile[x0; x1[ :
! tile[idx++] = _unsafe.getByte(addr); // [0-255]
addr += SIZE;
}
}
}
*** 267,277 ****
}
nextTile();
if (DO_MONITORS) {
! rdrCtx.stats.mon_ptg_getAlpha.stop();
}
}
/**
* Gets the alpha coverage values for the current tile.
--- 301,311 ----
}
nextTile();
if (DO_MONITORS) {
! rdrStats.mon_ptg_getAlpha.stop();
}
}
/**
* Gets the alpha coverage values for the current tile.
*** 280,290 ****
*/
private void getAlphaRLE(final byte[] tile, final int offset,
final int rowstride)
{
if (DO_MONITORS) {
! rdrCtx.stats.mon_ptg_getAlpha.start();
}
// Decode run-length encoded alpha mask data
// The data for row j begins at cache.rowOffsetsRLE[j]
// and is encoded as a set of 2-byte pairs (val, runLen)
--- 314,324 ----
*/
private void getAlphaRLE(final byte[] tile, final int offset,
final int rowstride)
{
if (DO_MONITORS) {
! rdrStats.mon_ptg_getAlpha.start();
}
// Decode run-length encoded alpha mask data
// The data for row j begins at cache.rowOffsetsRLE[j]
// and is encoded as a set of 2-byte pairs (val, runLen)
*** 298,463 ****
final int[] rowAAEnc = _cache.rowAAEnc;
final long[] rowAALen = _cache.rowAALen;
final long[] rowAAPos = _cache.rowAAPos;
final int x0 = this.x;
! final int x1 = FloatMath.min(x0 + TILE_SIZE, _cache.bboxX1);
// note: process tile line [0 - 32[
final int y0 = 0;
! final int y1 = FloatMath.min(this.y + TILE_SIZE, _cache.bboxY1) - this.y;
if (DO_LOG_BOUNDS) {
MarlinUtils.logInfo("getAlpha = [" + x0 + " ... " + x1
+ "[ [" + y0 + " ... " + y1 + "[");
}
final Unsafe _unsafe = OffHeapArray.UNSAFE;
final long SIZE_BYTE = 1L;
final long SIZE_INT = 4L;
final long addr_rowAA = _cache.rowAAChunk.address;
long addr, addr_row, last_addr, addr_end;
! final int skipRowPixels = (rowstride - (x1 - x0));
int cx, cy, cx1;
int rx0, rx1, runLen, end;
int packed;
byte val;
int idx = offset;
! for (cy = y0; cy < y1; cy++) {
! // empty line (default)
! cx = x0;
! if (rowAAEnc[cy] == 0) {
! // Raw encoding:
! final int aax1 = rowAAx1[cy]; // exclusive
! // quick check if there is AA data
! // corresponding to this tile [x0; x1[
! if (aax1 > x0) {
! final int aax0 = rowAAx0[cy]; // inclusive
! if (aax0 < x1) {
! // note: cx is the cursor pointer in the tile array
! // (left to right)
! cx = aax0;
! // ensure cx >= x0
! if (cx <= x0) {
! cx = x0;
! } else {
! // fill line start until first AA pixel rowAA exclusive:
! for (end = x0; end < cx; end++) {
! tile[idx++] = 0;
! }
}
! // now: cx >= x0 but cx < aax0 (x1 < aax0)
! // Copy AA data (sum alpha data):
! addr = addr_rowAA + rowAAChunkIndex[cy] + (cx - aax0);
! for (end = (aax1 <= x1) ? aax1 : x1; cx < end; cx++) {
! tile[idx++] = _unsafe.getByte(addr); // [0..255]
! addr += SIZE_BYTE;
}
}
}
- } else {
- // RLE encoding:
! // quick check if there is AA data
! // corresponding to this tile [x0; x1[
! if (rowAAx1[cy] > x0) { // last pixel exclusive
! cx = rowAAx0[cy]; // inclusive
! if (cx > x1) {
! cx = x1;
}
! // fill line start until first AA pixel rowAA exclusive:
! for (int i = x0; i < cx; i++) {
! tile[idx++] = 0;
! }
! // get row address:
! addr_row = addr_rowAA + rowAAChunkIndex[cy];
! // get row end address:
! addr_end = addr_row + rowAALen[cy]; // coded length
! // reuse previous iteration position:
! addr = addr_row + rowAAPos[cy];
! last_addr = 0L;
! while ((cx < x1) && (addr < addr_end)) {
! // keep current position:
! last_addr = addr;
! // packed value:
! packed = _unsafe.getInt(addr);
! // last exclusive pixel x-coordinate:
! cx1 = (packed >> 8);
! // as bytes:
! addr += SIZE_INT;
! rx0 = cx;
! if (rx0 < x0) {
! rx0 = x0;
}
! rx1 = cx = cx1;
! if (rx1 > x1) {
! rx1 = x1;
! cx = x1; // fix last x
}
! // adjust runLen:
! runLen = rx1 - rx0;
! // ensure rx1 > rx0:
! if (runLen > 0) {
! val = (byte)(packed & 0xFF); // [0..255]
! do {
! tile[idx++] = val;
! } while (--runLen > 0);
}
}
! // Update last position in RLE entries:
! if (last_addr != 0L) {
! // Fix x0:
! rowAAx0[cy] = cx; // inclusive
! // Fix position:
! rowAAPos[cy] = (last_addr - addr_row);
}
}
- }
! // fill line end
! while (cx < x1) {
! tile[idx++] = 0;
! cx++;
! }
! if (DO_TRACE) {
! for (int i = idx - (x1 - x0); i < idx; i++) {
! System.out.print(hex(tile[i], 2));
}
- System.out.println();
- }
! idx += skipRowPixels;
}
nextTile();
if (DO_MONITORS) {
! rdrCtx.stats.mon_ptg_getAlpha.stop();
}
}
static String hex(int v, int d) {
String s = Integer.toHexString(v);
--- 332,798 ----
final int[] rowAAEnc = _cache.rowAAEnc;
final long[] rowAALen = _cache.rowAALen;
final long[] rowAAPos = _cache.rowAAPos;
final int x0 = this.x;
! final int x1 = FloatMath.min(x0 + TILE_W, _cache.bboxX1);
! final int w = x1 - x0;
// note: process tile line [0 - 32[
final int y0 = 0;
! final int y1 = FloatMath.min(this.y + TILE_H, _cache.bboxY1) - this.y;
if (DO_LOG_BOUNDS) {
MarlinUtils.logInfo("getAlpha = [" + x0 + " ... " + x1
+ "[ [" + y0 + " ... " + y1 + "[");
}
+ // avoid too small area: fill is not faster !
+ final int clearTile;
+ final byte refVal;
+ final int area;
+
+ if ((w >= FILL_TILE_W) && (area = w * y1) > 64) { // 64 / 4 ie 16 words min (faster)
+ final int alphaSum = cache.alphaSumInTile(x0);
+
+ if (alphaSum < area * TH_AA_ALPHA_FILL_EMPTY) {
+ clearTile = 1;
+ refVal = 0;
+ } else if (alphaSum > area * TH_AA_ALPHA_FILL_FULL) {
+ clearTile = 2;
+ refVal = (byte)0xff;
+ } else {
+ clearTile = 0;
+ refVal = 0;
+ }
+ } else {
+ clearTile = 0;
+ refVal = 0;
+ }
+
final Unsafe _unsafe = OffHeapArray.UNSAFE;
final long SIZE_BYTE = 1L;
final long SIZE_INT = 4L;
final long addr_rowAA = _cache.rowAAChunk.address;
long addr, addr_row, last_addr, addr_end;
! final int skipRowPixels = (rowstride - w);
int cx, cy, cx1;
int rx0, rx1, runLen, end;
int packed;
byte val;
int idx = offset;
! switch (clearTile) {
! case 1: // 0x00
! // Clear full tile rows:
! Arrays.fill(tile, offset, offset + (y1 * rowstride), refVal);
!
! for (cy = y0; cy < y1; cy++) {
! // empty line (default)
! cx = x0;
!
! if (rowAAEnc[cy] == 0) {
! // Raw encoding:
!
! final int aax1 = rowAAx1[cy]; // exclusive
!
! // quick check if there is AA data
! // corresponding to this tile [x0; x1[
! if (aax1 > x0) {
! final int aax0 = rowAAx0[cy]; // inclusive
!
! if (aax0 < x1) {
! // note: cx is the cursor pointer in the tile array
! // (left to right)
! cx = aax0;
!
! // ensure cx >= x0
! if (cx <= x0) {
! cx = x0;
! } else {
! // skip line start until first AA pixel rowAA exclusive:
! idx += (cx - x0); // > 0
! }
! // now: cx >= x0 and cx >= aax0
! // Copy AA data (sum alpha data):
! addr = addr_rowAA + rowAAChunkIndex[cy] + (cx - aax0);
! for (end = (aax1 <= x1) ? aax1 : x1; cx < end; cx++) {
! tile[idx++] = _unsafe.getByte(addr); // [0-255]
! addr += SIZE_BYTE;
! }
! }
! }
! } else {
! // RLE encoding:
! // quick check if there is AA data
! // corresponding to this tile [x0; x1[
! if (rowAAx1[cy] > x0) { // last pixel exclusive
!
! cx = rowAAx0[cy]; // inclusive
! if (cx > x1) {
! cx = x1;
! }
! // skip line start until first AA pixel rowAA exclusive:
! if (cx > x0) {
! idx += (cx - x0); // > 0
}
! // get row address:
! addr_row = addr_rowAA + rowAAChunkIndex[cy];
! // get row end address:
! addr_end = addr_row + rowAALen[cy]; // coded length
!
! // reuse previous iteration position:
! addr = addr_row + rowAAPos[cy];
!
! last_addr = 0L;
!
! while ((cx < x1) && (addr < addr_end)) {
! // keep current position:
! last_addr = addr;
!
! // packed value:
! packed = _unsafe.getInt(addr);
!
! // last exclusive pixel x-coordinate:
! cx1 = (packed >> 8);
! // as bytes:
! addr += SIZE_INT;
!
! rx0 = cx;
! if (rx0 < x0) {
! rx0 = x0;
! }
! rx1 = cx = cx1;
! if (rx1 > x1) {
! rx1 = x1;
! cx = x1; // fix last x
! }
! // adjust runLen:
! runLen = rx1 - rx0;
! // ensure rx1 > rx0:
! if (runLen > 0) {
! packed &= 0xFF; // [0-255]
!
! if (packed == 0)
! {
! idx += runLen;
! continue;
! }
! val = (byte) packed; // [0-255]
! do {
! tile[idx++] = val;
! } while (--runLen > 0);
! }
! }
! // Update last position in RLE entries:
! if (last_addr != 0L) {
! // Fix x0:
! rowAAx0[cy] = cx; // inclusive
! // Fix position:
! rowAAPos[cy] = (last_addr - addr_row);
}
}
}
! // skip line end
! if (cx < x1) {
! idx += (x1 - cx); // > 0
! }
! if (DO_TRACE) {
! for (int i = idx - (x1 - x0); i < idx; i++) {
! System.out.print(hex(tile[i], 2));
}
+ System.out.println();
+ }
! idx += skipRowPixels;
! }
! break;
! case 0:
! default:
! for (cy = y0; cy < y1; cy++) {
! // empty line (default)
! cx = x0;
!
! if (rowAAEnc[cy] == 0) {
! // Raw encoding:
!
! final int aax1 = rowAAx1[cy]; // exclusive
!
! // quick check if there is AA data
! // corresponding to this tile [x0; x1[
! if (aax1 > x0) {
! final int aax0 = rowAAx0[cy]; // inclusive
!
! if (aax0 < x1) {
! // note: cx is the cursor pointer in the tile array
! // (left to right)
! cx = aax0;
!
! // ensure cx >= x0
! if (cx <= x0) {
! cx = x0;
! } else {
! for (end = x0; end < cx; end++) {
! tile[idx++] = 0;
! }
! }
! // now: cx >= x0 and cx >= aax0
! // Copy AA data (sum alpha data):
! addr = addr_rowAA + rowAAChunkIndex[cy] + (cx - aax0);
! for (end = (aax1 <= x1) ? aax1 : x1; cx < end; cx++) {
! tile[idx++] = _unsafe.getByte(addr); // [0-255]
! addr += SIZE_BYTE;
! }
! }
! }
! } else {
! // RLE encoding:
! // quick check if there is AA data
! // corresponding to this tile [x0; x1[
! if (rowAAx1[cy] > x0) { // last pixel exclusive
!
! cx = rowAAx0[cy]; // inclusive
! if (cx > x1) {
! cx = x1;
! }
! // fill line start until first AA pixel rowAA exclusive:
! for (end = x0; end < cx; end++) {
! tile[idx++] = 0;
! }
!
! // get row address:
! addr_row = addr_rowAA + rowAAChunkIndex[cy];
! // get row end address:
! addr_end = addr_row + rowAALen[cy]; // coded length
!
! // reuse previous iteration position:
! addr = addr_row + rowAAPos[cy];
!
! last_addr = 0L;
!
! while ((cx < x1) && (addr < addr_end)) {
! // keep current position:
! last_addr = addr;
!
! // packed value:
! packed = _unsafe.getInt(addr);
!
! // last exclusive pixel x-coordinate:
! cx1 = (packed >> 8);
! // as bytes:
! addr += SIZE_INT;
!
! rx0 = cx;
! if (rx0 < x0) {
! rx0 = x0;
! }
! rx1 = cx = cx1;
! if (rx1 > x1) {
! rx1 = x1;
! cx = x1; // fix last x
! }
! // adjust runLen:
! runLen = rx1 - rx0;
! // ensure rx1 > rx0:
! if (runLen > 0) {
! packed &= 0xFF; // [0-255]
!
! val = (byte) packed; // [0-255]
! do {
! tile[idx++] = val;
! } while (--runLen > 0);
! }
}
!
! // Update last position in RLE entries:
! if (last_addr != 0L) {
! // Fix x0:
! rowAAx0[cy] = cx; // inclusive
! // Fix position:
! rowAAPos[cy] = (last_addr - addr_row);
}
! }
! }
!
! // fill line end
! while (cx < x1) {
! tile[idx++] = 0;
! cx++;
! }
!
! if (DO_TRACE) {
! for (int i = idx - (x1 - x0); i < idx; i++) {
! System.out.print(hex(tile[i], 2));
! }
! System.out.println();
! }
! idx += skipRowPixels;
! }
! break;
! case 2: // 0xFF
! // Fill full tile rows:
! Arrays.fill(tile, offset, offset + (y1 * rowstride), refVal);
!
! for (cy = y0; cy < y1; cy++) {
! // empty line (default)
! cx = x0;
!
! if (rowAAEnc[cy] == 0) {
! // Raw encoding:
!
! final int aax1 = rowAAx1[cy]; // exclusive
!
! // quick check if there is AA data
! // corresponding to this tile [x0; x1[
! if (aax1 > x0) {
! final int aax0 = rowAAx0[cy]; // inclusive
!
! if (aax0 < x1) {
! // note: cx is the cursor pointer in the tile array
! // (left to right)
! cx = aax0;
!
! // ensure cx >= x0
! if (cx <= x0) {
! cx = x0;
! } else {
! // fill line start until first AA pixel rowAA exclusive:
! for (end = x0; end < cx; end++) {
! tile[idx++] = 0;
! }
! }
!
! // now: cx >= x0 and cx >= aax0
!
! // Copy AA data (sum alpha data):
! addr = addr_rowAA + rowAAChunkIndex[cy] + (cx - aax0);
!
! for (end = (aax1 <= x1) ? aax1 : x1; cx < end; cx++) {
! tile[idx++] = _unsafe.getByte(addr); // [0-255]
! addr += SIZE_BYTE;
! }
}
}
+ } else {
+ // RLE encoding:
+
+ // quick check if there is AA data
+ // corresponding to this tile [x0; x1[
+ if (rowAAx1[cy] > x0) { // last pixel exclusive
+
+ cx = rowAAx0[cy]; // inclusive
+ if (cx > x1) {
+ cx = x1;
+ }
+
+ // fill line start until first AA pixel rowAA exclusive:
+ for (end = x0; end < cx; end++) {
+ tile[idx++] = 0;
+ }
! // get row address:
! addr_row = addr_rowAA + rowAAChunkIndex[cy];
! // get row end address:
! addr_end = addr_row + rowAALen[cy]; // coded length
!
! // reuse previous iteration position:
! addr = addr_row + rowAAPos[cy];
!
! last_addr = 0L;
!
! while ((cx < x1) && (addr < addr_end)) {
! // keep current position:
! last_addr = addr;
!
! // packed value:
! packed = _unsafe.getInt(addr);
!
! // last exclusive pixel x-coordinate:
! cx1 = (packed >> 8);
! // as bytes:
! addr += SIZE_INT;
!
! rx0 = cx;
! if (rx0 < x0) {
! rx0 = x0;
! }
! rx1 = cx = cx1;
! if (rx1 > x1) {
! rx1 = x1;
! cx = x1; // fix last x
! }
! // adjust runLen:
! runLen = rx1 - rx0;
!
! // ensure rx1 > rx0:
! if (runLen > 0) {
! packed &= 0xFF; // [0-255]
!
! if (packed == 0xFF)
! {
! idx += runLen;
! continue;
! }
! val = (byte) packed; // [0-255]
! do {
! tile[idx++] = val;
! } while (--runLen > 0);
! }
! }
!
! // Update last position in RLE entries:
! if (last_addr != 0L) {
! // Fix x0:
! rowAAx0[cy] = cx; // inclusive
! // Fix position:
! rowAAPos[cy] = (last_addr - addr_row);
! }
}
}
! // fill line end
! while (cx < x1) {
! tile[idx++] = 0;
! cx++;
! }
! if (DO_TRACE) {
! for (int i = idx - (x1 - x0); i < idx; i++) {
! System.out.print(hex(tile[i], 2));
! }
! System.out.println();
}
! idx += skipRowPixels;
! }
}
nextTile();
if (DO_MONITORS) {
! rdrStats.mon_ptg_getAlpha.stop();
}
}
static String hex(int v, int d) {
String s = Integer.toHexString(v);
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