@Test
public void subBufferTest02FloatBuffer() {
out.println(" - - - subBufferTest - - - ");
@SuppressWarnings("unchecked")
final CLPlatform platform = CLPlatform.getDefault(version(CL_1_1));
if (platform == null) {
out.println("aborting subBufferTest");
return;
}
final CLContext context = CLContext.create(platform);
try {
final int subelements = 5;
final long lMaxAlignment = context.getMaxMemBaseAddrAlign();
final int iMaxAlignment = Bitstream.uint32LongToInt(lMaxAlignment);
System.err.println(
"XXX: maxAlignment "
+ lMaxAlignment
+ ", 0x"
+ Long.toHexString(lMaxAlignment)
+ ", (int)"
+ iMaxAlignment
+ ", (int)0x"
+ Integer.toHexString(iMaxAlignment));
if (-1 == iMaxAlignment) {
throw new RuntimeException(
"Cannot handle MaxMemBaseAddrAlign > MAX_INT, has 0x"
+ Long.toHexString(lMaxAlignment));
}
// FIXME: See Bug 979: Offset/Alignment via offset calculation per element-count is faulty!
final int floatsPerAlignment = iMaxAlignment / Buffers.SIZEOF_FLOAT;
// device + direct buffer
final CLBuffer<FloatBuffer> buffer =
context.createFloatBuffer(floatsPerAlignment + subelements);
assertFalse(buffer.isSubBuffer());
assertNotNull(buffer.getSubBuffers());
assertTrue(buffer.getSubBuffers().isEmpty());
final CLSubBuffer<FloatBuffer> subBuffer =
buffer.createSubBuffer(floatsPerAlignment, subelements);
assertTrue(subBuffer.isSubBuffer());
assertEquals(subelements, subBuffer.getBuffer().capacity());
assertEquals(floatsPerAlignment, subBuffer.getOffset());
assertEquals(iMaxAlignment, subBuffer.getCLOffset());
assertEquals(buffer, subBuffer.getParent());
assertEquals(1, buffer.getSubBuffers().size());
assertEquals(subBuffer.getCLCapacity(), subBuffer.getBuffer().capacity());
subBuffer.release();
assertEquals(0, buffer.getSubBuffers().size());
} finally {
context.release();
}
}
@Test
public void subBufferTest01ByteBuffer() {
out.println(" - - - subBufferTest - - - ");
@SuppressWarnings("unchecked")
final CLPlatform platform = CLPlatform.getDefault(version(CL_1_1));
if (platform == null) {
out.println("aborting subBufferTest");
return;
}
final CLContext context = CLContext.create(platform);
try {
final int subelements = 5;
final long lMaxAlignment = context.getMaxMemBaseAddrAlign();
final int iMaxAlignment = Bitstream.uint32LongToInt(lMaxAlignment);
System.err.println(
"XXX: maxAlignment "
+ lMaxAlignment
+ ", 0x"
+ Long.toHexString(lMaxAlignment)
+ ", (int)"
+ iMaxAlignment
+ ", (int)0x"
+ Integer.toHexString(iMaxAlignment));
if (-1 == iMaxAlignment) {
throw new RuntimeException(
"Cannot handle MaxMemBaseAddrAlign > MAX_INT, has 0x"
+ Long.toHexString(lMaxAlignment));
}
// device only
final CLBuffer<?> buffer = context.createBuffer(iMaxAlignment + subelements);
assertFalse(buffer.isSubBuffer());
assertNotNull(buffer.getSubBuffers());
assertTrue(buffer.getSubBuffers().isEmpty());
final CLSubBuffer<?> subBuffer = buffer.createSubBuffer(iMaxAlignment, subelements);
assertTrue(subBuffer.isSubBuffer());
assertEquals(subelements, subBuffer.getCLSize());
assertEquals(iMaxAlignment, subBuffer.getOffset());
assertEquals(iMaxAlignment, subBuffer.getCLOffset());
assertEquals(buffer, subBuffer.getParent());
assertEquals(1, buffer.getSubBuffers().size());
subBuffer.release();
assertEquals(0, buffer.getSubBuffers().size());
} finally {
context.release();
}
}
public static void convert(
final ComponentMap cmap,
final PixelFormat.Composition dstComp,
final Bitstream<ByteBuffer> dstBitStream,
final PixelFormat.Composition srcComp,
final Bitstream<ByteBuffer> srcBitStream)
throws IllegalStateException, IOException {
final int sCompCount = srcComp.componentCount();
final int dCompCount = dstComp.componentCount();
final int[] sc = new int[sCompCount];
final int[] dcDef = new int[dCompCount];
final int[] srcCompBitCount = srcComp.componentBitCount();
final int[] srcCompBitMask = srcComp.componentBitMask();
final int[] dstCompBitCount = dstComp.componentBitCount();
// Fill w/ source values
for (int sIdx = 0; sIdx < sCompCount; sIdx++) {
sc[sIdx] = srcBitStream.readBits31(srcCompBitCount[sIdx]) & srcCompBitMask[sIdx];
}
srcBitStream.skip(srcComp.bitStride() - srcComp.bitsPerPixel());
// Cache missing defaults
for (int i = 0; i < dCompCount; i++) {
dcDef[i] = dstComp.defaultValue(i, false);
}
if (1 == dCompCount && PixelFormat.CType.Y == dstComp.componentOrder()[0] && cmap.hasSrcRGB) {
// RGB[A] -> Y conversion
final int r = sc[cmap.srcRGBA[0]];
final int g = sc[cmap.srcRGBA[1]];
final int b = sc[cmap.srcRGBA[2]];
final float rF = srcComp.toFloat(r, cmap.srcRGBA[0], false);
final float gF = srcComp.toFloat(g, cmap.srcRGBA[1], false);
final float bF = srcComp.toFloat(b, cmap.srcRGBA[2], false);
final int a;
final float aF;
/**
* if( 0 <= cmap.srcRGBA[3] ) { // disable premultiplied-alpha a = sc[cmap.srcRGBA[3]]; aF =
* srcComp.toFloat(a, false, cmap.srcRGBA[3]); } else
*/
{
a = 1;
aF = 1f;
}
final float lF = (rF + gF + bF) * aF / 3f;
final int v = dstComp.fromFloat(lF, 0, false);
dstBitStream.writeBits31(dstCompBitCount[0], v);
dstBitStream.skip(dstComp.bitStride() - dstComp.bitsPerPixel());
if (DEBUG) {
if (srcBitStream.position() <= 8 * 4) {
System.err.printf(
"convert: rgb[a] -> Y: rgb 0x%02X 0x%02X 0x%02X 0x%02X -> %f %f %f %f"
+ " -> %f -> dstC 0 0x%08X (%d bits: %s)%n",
r,
g,
b,
a,
rF,
gF,
bF,
aF,
lF,
v,
dstCompBitCount[0],
Bitstream.toBinString(true, v, dstCompBitCount[0]));
}
}
return;
}
for (int dIdx = 0; dIdx < dCompCount; dIdx++) {
int sIdx;
if (0 <= (sIdx = cmap.dst2src[dIdx])) {
final float f = srcComp.toFloat(sc[sIdx], sIdx, false);
final int v = dstComp.fromFloat(f, dIdx, false);
dstBitStream.writeBits31(dstCompBitCount[dIdx], v);
if (DEBUG) {
if (srcBitStream.position() <= 8 * 4) {
System.err.printf(
"convert: srcC %d: 0x%08X -> %f -> dstC %d 0x%08X (%d bits: %s)%n",
sIdx,
sc[sIdx],
f,
dIdx,
v,
dstCompBitCount[dIdx],
Bitstream.toBinString(true, v, dstCompBitCount[dIdx]));
}
}
} else {
dstBitStream.writeBits31(dstCompBitCount[dIdx], dcDef[dIdx]);
if (DEBUG) {
if (srcBitStream.position() <= 8 * 4) {
System.err.printf(
"convert: srcC %d: undef -> dstC %d 0x%08X (%d bits: %s)%n",
sIdx,
dIdx,
dcDef[dIdx],
dstCompBitCount[dIdx],
Bitstream.toBinString(true, dcDef[dIdx], dstCompBitCount[dIdx]));
}
}
}
}
dstBitStream.skip(dstComp.bitStride() - dstComp.bitsPerPixel());
return;
}
/**
* @param width width of the to be converted pixel rectangle
* @param height height of the to be converted pixel rectangle
* @param src_bb {@link ByteBuffer} source
* @param src_fmt source {@link PixelFormat}
* @param src_glOriented if true, the source memory is laid out in OpenGL's coordinate system,
* <i>origin at bottom left</i>, otherwise <i>origin at top left</i>.
* @param src_lineStride line stride in byte-size for source, i.e. byte count from one line to the
* next. Must be >= {@link PixelFormat.Composition#bytesPerPixel()
* src_fmt.comp.bytesPerPixel()} * width or {@code zero} for default stride.
* @param dst_bb {@link ByteBuffer} sink
* @param dst_fmt destination {@link PixelFormat}
* @param dst_glOriented if true, the source memory is laid out in OpenGL's coordinate system,
* <i>origin at bottom left</i>, otherwise <i>origin at top left</i>.
* @param dst_lineStride line stride in byte-size for destination, i.e. byte count from one line
* to the next. Must be >= {@link PixelFormat.Composition#bytesPerPixel()
* dst_fmt.comp.bytesPerPixel()} * width or {@code zero} for default stride.
* @throws IllegalStateException
* @throws IllegalArgumentException if {@code src_lineStride} or {@code dst_lineStride} is invalid
*/
public static void convert(
final int width,
final int height,
final ByteBuffer src_bb,
final PixelFormat src_fmt,
final boolean src_glOriented,
int src_lineStride,
final ByteBuffer dst_bb,
final PixelFormat dst_fmt,
final boolean dst_glOriented,
int dst_lineStride)
throws IllegalStateException, IllegalArgumentException {
final PixelFormat.Composition src_comp = src_fmt.comp;
final PixelFormat.Composition dst_comp = dst_fmt.comp;
final int src_bpp = src_comp.bytesPerPixel();
final int dst_bpp = dst_comp.bytesPerPixel();
if (0 != src_lineStride) {
if (src_lineStride < src_bpp * width) {
throw new IllegalArgumentException(
String.format(
"Invalid %s stride %d, must be greater than bytesPerPixel %d * width %d",
"source", src_lineStride, src_bpp, width));
}
} else {
src_lineStride = src_bpp * width;
}
if (0 != dst_lineStride) {
if (dst_lineStride < dst_bpp * width) {
throw new IllegalArgumentException(
String.format(
"Invalid %s stride %d, must be greater than bytesPerPixel %d * width %d",
"destination", dst_lineStride, dst_bpp, width));
}
} else {
dst_lineStride = dst_bpp * width;
}
// final int src_comp_bitStride = src_comp.bitStride();
final int dst_comp_bitStride = dst_comp.bitStride();
final boolean vert_flip = src_glOriented != dst_glOriented;
final boolean fast_copy = src_comp.equals(dst_comp) && 0 == dst_comp_bitStride % 8;
if (DEBUG) {
System.err.println("XXX: size " + width + "x" + height + ", fast_copy " + fast_copy);
System.err.println(
"XXX: SRC fmt "
+ src_fmt
+ ", "
+ src_comp
+ ", stride "
+ src_lineStride
+ ", isGLOrient "
+ src_glOriented);
System.err.println(
"XXX: DST fmt "
+ dst_fmt
+ ", "
+ dst_comp
+ ", stride "
+ dst_lineStride
+ ", isGLOrient "
+ dst_glOriented);
}
if (fast_copy) {
// Fast copy
for (int y = 0; y < height; y++) {
int src_off = vert_flip ? (height - 1 - y) * src_lineStride : y * src_lineStride;
int dst_off = dst_lineStride * y;
for (int x = 0; x < width; x++) {
dst_bb.put(dst_off + 0, src_bb.get(src_off + 0)); // 1
if (2 <= dst_bpp) {
dst_bb.put(dst_off + 1, src_bb.get(src_off + 1)); // 2
if (3 <= dst_bpp) {
dst_bb.put(dst_off + 2, src_bb.get(src_off + 2)); // 3
if (4 <= dst_bpp) {
dst_bb.put(dst_off + 3, src_bb.get(src_off + 3)); // 4
}
}
}
src_off += src_bpp;
dst_off += dst_bpp;
}
}
} else {
// Conversion
final ComponentMap cmap = new ComponentMap(src_fmt.comp, dst_fmt.comp);
final Bitstream.ByteBufferStream srcBBS = new Bitstream.ByteBufferStream(src_bb);
final Bitstream<ByteBuffer> srcBitStream =
new Bitstream<ByteBuffer>(srcBBS, false /* outputMode */);
srcBitStream.setThrowIOExceptionOnEOF(true);
final Bitstream.ByteBufferStream dstBBS = new Bitstream.ByteBufferStream(dst_bb);
final Bitstream<ByteBuffer> dstBitStream =
new Bitstream<ByteBuffer>(dstBBS, true /* outputMode */);
dstBitStream.setThrowIOExceptionOnEOF(true);
if (DEBUG) {
System.err.println("XXX: cmap.dst2src " + Arrays.toString(cmap.dst2src));
System.err.println("XXX: cmap.src2dst " + Arrays.toString(cmap.src2dst));
System.err.println("XXX: cmap.srcRGBA " + Arrays.toString(cmap.srcRGBA));
System.err.println("XXX: srcBitStream " + srcBitStream);
System.err.println("XXX: dstBitStream " + dstBitStream);
}
try {
for (int y = 0; y < height; y++) {
final int src_off =
vert_flip ? (height - 1 - y) * src_lineStride * 8 : y * src_lineStride * 8;
// final int dst_off = dst_lineStride*8*y;
srcBitStream.position(src_off);
for (int x = 0; x < width; x++) {
convert(cmap, dst_comp, dstBitStream, src_comp, srcBitStream);
}
// srcBitStream.skip(( src_lineStride * 8 ) - ( src_comp_bitStride * width ));
dstBitStream.skip((dst_lineStride * 8) - (dst_comp_bitStride * width));
}
} catch (final IOException ioe) {
throw new RuntimeException(ioe);
}
if (DEBUG) {
System.err.println("XXX: srcBitStream " + srcBitStream);
System.err.println("XXX: dstBitStream " + dstBitStream);
}
}
}