/*
* Copyright (c) 2002-2010 LWJGL Project
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* * Neither the name of 'LWJGL' nor the names of
* its contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
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* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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package org.lwjgl.opencl;
import org.lwjgl.*;
import org.lwjgl.opencl.api.CLBufferRegion;
import org.lwjgl.opencl.api.CLImageFormat;
import org.lwjgl.opencl.api.Filter;
import org.lwjgl.opengl.Drawable;
import java.nio.Buffer;
import java.nio.ByteBuffer;
import java.nio.IntBuffer;
import java.util.ArrayList;
import java.util.List;
import static org.lwjgl.opencl.CL10.*;
import static org.lwjgl.opencl.CL10GL.*;
import static org.lwjgl.opencl.CL11.*;
/**
* This class contains concrete InfoUtil implementations for our CLObject
* class. The public CLObject classes are grabbing these via reflection,
* so that they can be compiled for the generator.
*
* @author Spasi
*/
final class InfoUtilFactory {
private InfoUtilFactory() {}
static final InfoUtil<CLCommandQueue> CL_COMMAND_QUEUE_UTIL = new InfoUtilAbstract<CLCommandQueue>() {
protected int getInfo(final CLCommandQueue object, final int param_name, final ByteBuffer param_value, final PointerBuffer param_value_size_ret) {
return clGetCommandQueueInfo(object, param_name, param_value, null);
}
};
static final CLContext.CLContextUtil CL_CONTEXT_UTIL = new CLContextUtil();
private static final class CLContextUtil extends InfoUtilAbstract<CLContext> implements CLContext.CLContextUtil {
protected int getInfo(final CLContext context, final int param_name, final ByteBuffer param_value, final PointerBuffer param_value_size_ret) {
return clGetContextInfo(context, param_name, param_value, param_value_size_ret);
}
public List<CLDevice> getInfoDevices(final CLContext context) {
context.checkValid();
final int num_devices;
if ( CLCapabilities.getPlatformCapabilities(context.getParent()).OpenCL11 )
num_devices = getInfoInt(context, CL_CONTEXT_NUM_DEVICES);
else {
final PointerBuffer size_ret = APIUtil.getBufferPointer();
clGetContextInfo(context, CL_CONTEXT_DEVICES, null, size_ret);
num_devices = (int)(size_ret.get(0) / PointerBuffer.getPointerSize());
}
final PointerBuffer deviceIDs = APIUtil.getBufferPointer(num_devices);
clGetContextInfo(context, CL_CONTEXT_DEVICES, deviceIDs.getBuffer(), null);
final List<CLDevice> devices = new ArrayList<CLDevice>(num_devices);
for ( int i = 0; i < num_devices; i++ )
devices.add(context.getParent().getCLDevice(deviceIDs.get(i)));
return devices.size() == 0 ? null : devices;
}
/** Custom clCreateContext implementation (reuses APIUtil.getBufferPointer) */
public CLContext create(final CLPlatform platform, final List<CLDevice> devices, final CLContextCallback pfn_notify, final Drawable share_drawable, IntBuffer errcode_ret) throws LWJGLException {
final int propertyCount = 2 + (share_drawable == null ? 0 : 4) + 1;
final PointerBuffer properties = APIUtil.getBufferPointer(propertyCount + devices.size());
properties.put(CL_CONTEXT_PLATFORM).put(platform);
if ( share_drawable != null )
share_drawable.setCLSharingProperties(properties);
properties.put(0);
properties.position(propertyCount); // Make sure we're at the right offset, setCLSharingProperties might not use all 4 positions.
for ( CLDevice device : devices )
properties.put(device);
final long function_pointer = CLCapabilities.clCreateContext;
BufferChecks.checkFunctionAddress(function_pointer);
if ( errcode_ret != null )
BufferChecks.checkBuffer(errcode_ret, 1);
else if ( LWJGLUtil.DEBUG )
errcode_ret = APIUtil.getBufferInt();
final long user_data = pfn_notify == null || pfn_notify.isCustom() ? 0 : CallbackUtil.createGlobalRef(pfn_notify);
CLContext __result = null;
try {
__result = new CLContext(nclCreateContext(properties.getBuffer(), 0, devices.size(), properties.getBuffer(), propertyCount * PointerBuffer.getPointerSize(), pfn_notify == null ? 0 : pfn_notify.getPointer(), user_data, errcode_ret, errcode_ret != null ? errcode_ret.position() : 0, function_pointer), platform);
if ( LWJGLUtil.DEBUG )
Util.checkCLError(errcode_ret.get(0));
return __result;
} finally {
CallbackUtil.registerCallback(__result, user_data);
}
}
public CLContext createFromType(final CLPlatform platform, final long device_type, final CLContextCallback pfn_notify, final Drawable share_drawable, final IntBuffer errcode_ret) throws LWJGLException {
final int propertyCount = 2 + (share_drawable == null ? 0 : 4) + 1;
final PointerBuffer properties = APIUtil.getBufferPointer(propertyCount);
properties.put(CL_CONTEXT_PLATFORM).put(platform);
if ( share_drawable != null )
share_drawable.setCLSharingProperties(properties);
properties.put(0);
properties.flip();
return clCreateContextFromType(properties, device_type, pfn_notify, errcode_ret);
}
public List<CLImageFormat> getSupportedImageFormats(final CLContext context, final long flags, final int image_type, final Filter<CLImageFormat> filter) {
final IntBuffer numBuffer = APIUtil.getBufferInt();
clGetSupportedImageFormats(context, flags, image_type, null, numBuffer);
final int num_image_formats = numBuffer.get(0);
if ( num_image_formats == 0 )
return null;
final ByteBuffer formatBuffer = BufferUtils.createByteBuffer(num_image_formats * CLImageFormat.STRUCT_SIZE);
clGetSupportedImageFormats(context, flags, image_type, formatBuffer, null);
final List<CLImageFormat> formats = new ArrayList<CLImageFormat>(num_image_formats);
for ( int i = 0; i < num_image_formats; i++ ) {
final int offset = num_image_formats * CLImageFormat.STRUCT_SIZE;
final CLImageFormat format = new CLImageFormat(
formatBuffer.getInt(offset),
formatBuffer.getInt(offset + 4)
);
if ( filter == null || filter.accept(format) )
formats.add(format);
}
return formats.size() == 0 ? null : formats;
}
}
static final InfoUtil<CLDevice> CL_DEVICE_UTIL = new CLDeviceUtil();
private static final class CLDeviceUtil extends InfoUtilAbstract<CLDevice> {
protected int getInfo(final CLDevice device, final int param_name, final ByteBuffer param_value, final PointerBuffer param_value_size_ret) {
return clGetDeviceInfo(device, param_name, param_value, param_value_size_ret);
}
protected int getInfoSizeArraySize(final CLDevice device, final int param_name) {
switch ( param_name ) {
case CL_DEVICE_MAX_WORK_ITEM_SIZES:
return getInfoInt(device, CL_DEVICE_MAX_WORK_ITEM_DIMENSIONS);
default:
throw new IllegalArgumentException("Unsupported parameter: " + LWJGLUtil.toHexString(param_name));
}
}
}
static final CLEvent.CLEventUtil CL_EVENT_UTIL = new CLEventUtil();
private static final class CLEventUtil extends InfoUtilAbstract<CLEvent> implements CLEvent.CLEventUtil {
protected int getInfo(final CLEvent event, final int param_name, final ByteBuffer param_value, final PointerBuffer param_value_size_ret) {
return clGetEventInfo(event, param_name, param_value, param_value_size_ret);
}
public long getProfilingInfoLong(final CLEvent event, final int param_name) {
event.checkValid();
final ByteBuffer buffer = APIUtil.getBufferByte(8);
clGetEventProfilingInfo(event, param_name, buffer, null);
return buffer.getLong(0);
}
}
static final CLKernel.CLKernelUtil CL_KERNEL_UTIL = new CLKernelUtil();
private static final class CLKernelUtil extends InfoUtilAbstract<CLKernel> implements CLKernel.CLKernelUtil {
public void setArg(final CLKernel kernel, final int index, final byte value) {
clSetKernelArg(kernel, index, 1, APIUtil.getBufferByte(1).put(0, value));
}
public void setArg(final CLKernel kernel, final int index, final short value) {
clSetKernelArg(kernel, index, 2, APIUtil.getBufferShort().put(0, value));
}
public void setArg(final CLKernel kernel, final int index, final int value) {
clSetKernelArg(kernel, index, 4, APIUtil.getBufferInt().put(0, value));
}
public void setArg(final CLKernel kernel, final int index, final long value) {
clSetKernelArg(kernel, index, 8, APIUtil.getBufferLong().put(0, value));
}
public void setArg(final CLKernel kernel, final int index, final float value) {
clSetKernelArg(kernel, index, 4, APIUtil.getBufferFloat().put(0, value));
}
public void setArg(final CLKernel kernel, final int index, final double value) {
clSetKernelArg(kernel, index, 8, APIUtil.getBufferDouble().put(0, value));
}
public void setArg(final CLKernel kernel, final int index, final CLObject value) {
clSetKernelArg(kernel, index, value);
}
public void setArgSize(final CLKernel kernel, final int index, final long size) {
clSetKernelArg(kernel, index, size);
}
protected int getInfo(final CLKernel kernel, final int param_name, final ByteBuffer param_value, final PointerBuffer param_value_size_ret) {
return clGetKernelInfo(kernel, param_name, param_value, param_value_size_ret);
}
public long getWorkGroupInfoSize(final CLKernel kernel, final CLDevice device, final int param_name) {
device.checkValid();
final PointerBuffer buffer = APIUtil.getBufferPointer();
clGetKernelWorkGroupInfo(kernel, device, param_name, buffer.getBuffer(), null);
return buffer.get(0);
}
public long[] getWorkGroupInfoSizeArray(final CLKernel kernel, final CLDevice device, final int param_name) {
device.checkValid();
final int size;
switch ( param_name ) {
case CL_KERNEL_WORK_GROUP_SIZE:
size = 3;
break;
default:
throw new IllegalArgumentException("Unsupported parameter: " + LWJGLUtil.toHexString(param_name));
}
final PointerBuffer buffer = APIUtil.getBufferPointer(size);
clGetKernelWorkGroupInfo(kernel, device, param_name, buffer.getBuffer(), null);
final long[] array = new long[size];
for ( int i = 0; i < size; i++ )
array[i] = buffer.get(i);
return array;
}
public long getWorkGroupInfoLong(final CLKernel kernel, final CLDevice device, final int param_name) {
device.checkValid();
final ByteBuffer buffer = APIUtil.getBufferByte(8);
clGetKernelWorkGroupInfo(kernel, device, param_name, buffer, null);
return buffer.getLong(0);
}
}
static final CLMem.CLMemUtil CL_MEM_UTIL = new CLMemUtil();
private static final class CLMemUtil extends InfoUtilAbstract<CLMem> implements CLMem.CLMemUtil {
protected int getInfo(final CLMem mem, final int param_name, final ByteBuffer param_value, final PointerBuffer param_value_size_ret) {
return clGetMemObjectInfo(mem, param_name, param_value, param_value_size_ret);
}
public CLMem createImage2D(final CLContext context, final long flags, final CLImageFormat image_format, final long image_width, final long image_height, final long image_row_pitch, final Buffer host_ptr, IntBuffer errcode_ret) {
final ByteBuffer formatBuffer = APIUtil.getBufferByte(2 * 4);
formatBuffer.putInt(0, image_format.getChannelOrder());
formatBuffer.putInt(4, image_format.getChannelType());
final long function_pointer = CLCapabilities.clCreateImage2D;
BufferChecks.checkFunctionAddress(function_pointer);
if ( errcode_ret != null )
BufferChecks.checkBuffer(errcode_ret, 1);
else if ( LWJGLUtil.DEBUG )
errcode_ret = APIUtil.getBufferInt();
CLMem __result = new CLMem(nclCreateImage2D(context.getPointer(), flags, formatBuffer, 0, image_width, image_height, image_row_pitch, host_ptr,
host_ptr != null ? BufferChecks.checkBuffer(host_ptr, CLChecks.calculateImage2DSize(formatBuffer, image_width, image_height, image_row_pitch)) : 0,
errcode_ret, errcode_ret != null ? errcode_ret.position() : 0, function_pointer), context);
if ( LWJGLUtil.DEBUG )
Util.checkCLError(errcode_ret.get(0));
return __result;
}
public CLMem createImage3D(final CLContext context, final long flags, final CLImageFormat image_format, final long image_width, final long image_height, final long image_depth, final long image_row_pitch, final long image_slice_pitch, final Buffer host_ptr, IntBuffer errcode_ret) {
final ByteBuffer formatBuffer = APIUtil.getBufferByte(2 * 4);
formatBuffer.putInt(0, image_format.getChannelOrder());
formatBuffer.putInt(4, image_format.getChannelType());
final long function_pointer = CLCapabilities.clCreateImage3D;
BufferChecks.checkFunctionAddress(function_pointer);
if ( errcode_ret != null )
BufferChecks.checkBuffer(errcode_ret, 1);
else if ( LWJGLUtil.DEBUG )
errcode_ret = APIUtil.getBufferInt();
CLMem __result = new CLMem(nclCreateImage3D(context.getPointer(), flags, formatBuffer, 0, image_width, image_height, image_depth, image_row_pitch, image_slice_pitch, host_ptr,
host_ptr != null ? BufferChecks.checkBuffer(host_ptr, CLChecks.calculateImage3DSize(formatBuffer, image_width, image_height, image_depth, image_row_pitch, image_slice_pitch)) : 0,
errcode_ret, errcode_ret != null ? errcode_ret.position() : 0, function_pointer), context);
if ( LWJGLUtil.DEBUG )
Util.checkCLError(errcode_ret.get(0));
return __result;
}
public CLMem createSubBuffer(final CLMem mem, final long flags, final int buffer_create_type, final CLBufferRegion buffer_create_info, final IntBuffer errcode_ret) {
final PointerBuffer infoBuffer = APIUtil.getBufferPointer(2);
infoBuffer.put(buffer_create_info.getOrigin());
infoBuffer.put(buffer_create_info.getSize());
return clCreateSubBuffer(mem, flags, buffer_create_type, infoBuffer.getBuffer(), errcode_ret);
}
public ByteBuffer getInfoHostBuffer(final CLMem mem) {
mem.checkValid();
if ( LWJGLUtil.DEBUG ) {
final long mem_flags = getInfoLong(mem, CL_MEM_FLAGS);
if ( (mem_flags & CL_MEM_USE_HOST_PTR) != CL_MEM_USE_HOST_PTR )
throw new IllegalArgumentException("The specified CLMem object does not use host memory.");
}
final long size = getInfoSize(mem, CL_MEM_SIZE);
if ( size == 0 )
return null;
final long address = getInfoSize(mem, CL_MEM_HOST_PTR);
return CL.getHostBuffer(address, (int)size);
}
public long getImageInfoSize(final CLMem mem, final int param_name) {
mem.checkValid();
final PointerBuffer buffer = APIUtil.getBufferPointer();
clGetImageInfo(mem, param_name, buffer.getBuffer(), null);
return buffer.get(0);
}
public CLImageFormat getImageInfoFormat(final CLMem mem) {
mem.checkValid();
final ByteBuffer format = APIUtil.getBufferByte(2 * 4);
clGetImageInfo(mem, CL_IMAGE_FORMAT, format, null);
return new CLImageFormat(format.getInt(0), format.getInt(4));
}
public int getImageInfoFormat(final CLMem mem, final int index) {
mem.checkValid();
final ByteBuffer format = APIUtil.getBufferByte(2 * 4);
clGetImageInfo(mem, CL_IMAGE_FORMAT, format, null);
return format.getInt(index << 2);
}
public int getGLObjectType(final CLMem mem) {
mem.checkValid();
final IntBuffer buffer = APIUtil.getBufferInt();
clGetGLObjectInfo(mem, buffer, null);
return buffer.get(0);
}
public int getGLObjectName(final CLMem mem) {
mem.checkValid();
final IntBuffer buffer = APIUtil.getBufferInt();
clGetGLObjectInfo(mem, null, buffer);
return buffer.get(0);
}
public int getGLTextureInfoInt(final CLMem mem, final int param_name) {
mem.checkValid();
final ByteBuffer buffer = APIUtil.getBufferByte(4);
clGetGLTextureInfo(mem, param_name, buffer, null);
return buffer.getInt(0);
}
}
static final CLPlatform.CLPlatformUtil CL_PLATFORM_UTIL = new CLPlatformUtil();
private static final class CLPlatformUtil extends InfoUtilAbstract<CLPlatform> implements CLPlatform.CLPlatformUtil {
protected int getInfo(final CLPlatform platform, final int param_name, final ByteBuffer param_value, final PointerBuffer param_value_size_ret) {
return clGetPlatformInfo(platform, param_name, param_value, param_value_size_ret);
}
public List<CLPlatform> getPlatforms(final Filter<CLPlatform> filter) {
final IntBuffer numBuffer = APIUtil.getBufferInt();
clGetPlatformIDs(null, numBuffer);
final int num_platforms = numBuffer.get(0);
if ( num_platforms == 0 )
return null;
final PointerBuffer platformIDs = APIUtil.getBufferPointer(num_platforms);
clGetPlatformIDs(platformIDs, null);
final List<CLPlatform> platforms = new ArrayList<CLPlatform>(num_platforms);
for ( int i = 0; i < num_platforms; i++ ) {
final CLPlatform platform = CLPlatform.getCLPlatform(platformIDs.get(i));
if ( filter == null || filter.accept(platform) )
platforms.add(platform);
}
return platforms.size() == 0 ? null : platforms;
}
public List<CLDevice> getDevices(final CLPlatform platform, final int device_type, final Filter<CLDevice> filter) {
platform.checkValid();
final IntBuffer numBuffer = APIUtil.getBufferInt();
clGetDeviceIDs(platform, device_type, null, numBuffer);
final int num_devices = numBuffer.get(0);
if ( num_devices == 0 )
return null;
final PointerBuffer deviceIDs = APIUtil.getBufferPointer(num_devices);
clGetDeviceIDs(platform, device_type, deviceIDs, null);
final List<CLDevice> devices = new ArrayList<CLDevice>(num_devices);
for ( int i = 0; i < num_devices; i++ ) {
final CLDevice device = platform.getCLDevice(deviceIDs.get(i));
if ( filter == null || filter.accept(device) )
devices.add(device);
}
return devices.size() == 0 ? null : devices;
}
}
static final CLProgram.CLProgramUtil CL_PROGRAM_UTIL = new CLProgramUtil();
private static final class CLProgramUtil extends InfoUtilAbstract<CLProgram> implements CLProgram.CLProgramUtil {
protected int getInfo(final CLProgram program, final int param_name, final ByteBuffer param_value, final PointerBuffer param_value_size_ret) {
return clGetProgramInfo(program, param_name, param_value, param_value_size_ret);
}
protected int getInfoSizeArraySize(final CLProgram program, final int param_name) {
switch ( param_name ) {
case CL_PROGRAM_BINARY_SIZES:
return getInfoInt(program, CL_PROGRAM_NUM_DEVICES);
default:
throw new IllegalArgumentException("Unsupported parameter: " + LWJGLUtil.toHexString(param_name));
}
}
public CLKernel[] createKernelsInProgram(final CLProgram program) {
final IntBuffer numBuffer = APIUtil.getBufferInt();
clCreateKernelsInProgram(program, null, numBuffer);
final int num_kernels = numBuffer.get(0);
if ( num_kernels == 0 )
return null;
final PointerBuffer kernelIDs = APIUtil.getBufferPointer(num_kernels);
clCreateKernelsInProgram(program, kernelIDs, null);
final CLKernel[] kernels = new CLKernel[num_kernels];
for ( int i = 0; i < num_kernels; i++ )
kernels[i] = program.getCLKernel(kernelIDs.get(i));
return kernels;
}
public CLDevice[] getInfoDevices(final CLProgram program) {
program.checkValid();
final int size = getInfoInt(program, CL_PROGRAM_NUM_DEVICES);
final PointerBuffer buffer = APIUtil.getBufferPointer(size);
clGetProgramInfo(program, CL_PROGRAM_DEVICES, buffer.getBuffer(), null);
final CLPlatform platform = program.getParent().getParent();
final CLDevice[] array = new CLDevice[size];
for ( int i = 0; i < size; i++ )
array[i] = platform.getCLDevice(buffer.get(i));
return array;
}
public ByteBuffer getInfoBinaries(final CLProgram program, ByteBuffer target) {
program.checkValid();
final PointerBuffer sizes = getSizesBuffer(program, CL_PROGRAM_BINARY_SIZES);
int totalSize = 0;
for ( int i = 0; i < sizes.limit(); i++ )
totalSize += sizes.get(i);
if ( target == null )
target = BufferUtils.createByteBuffer(totalSize);
else if ( LWJGLUtil.DEBUG )
BufferChecks.checkBuffer(target, totalSize);
clGetProgramInfo(program, sizes, target, null);
return target;
}
public ByteBuffer[] getInfoBinaries(final CLProgram program, ByteBuffer[] target) {
program.checkValid();
if ( target == null ) {
final PointerBuffer sizes = getSizesBuffer(program, CL_PROGRAM_BINARY_SIZES);
target = new ByteBuffer[sizes.remaining()];
for ( int i = 0; i < sizes.remaining(); i++ )
target[i] = BufferUtils.createByteBuffer((int)sizes.get(0));
} else if ( LWJGLUtil.DEBUG ) {
final PointerBuffer sizes = getSizesBuffer(program, CL_PROGRAM_BINARY_SIZES);
if ( target.length < sizes.remaining() )
throw new IllegalArgumentException("The target array is not big enough: " + sizes.remaining() + " buffers are required.");
for ( int i = 0; i < target.length; i++ )
BufferChecks.checkBuffer(target[i], (int)sizes.get(i));
}
clGetProgramInfo(program, target, null);
return target;
}
public String getBuildInfoString(final CLProgram program, final CLDevice device, final int param_name) {
program.checkValid();
final int bytes = getBuildSizeRet(program, device, param_name);
if ( bytes <= 1 )
return null;
final ByteBuffer buffer = APIUtil.getBufferByte(bytes);
clGetProgramBuildInfo(program, device, param_name, buffer, null);
buffer.limit(bytes - 1); // Exclude null-termination
return APIUtil.getString(buffer);
}
public int getBuildInfoInt(final CLProgram program, final CLDevice device, final int param_name) {
program.checkValid();
final ByteBuffer buffer = APIUtil.getBufferByte(4);
clGetProgramBuildInfo(program, device, param_name, buffer, null);
return buffer.getInt(0);
}
private static int getBuildSizeRet(final CLProgram program, final CLDevice device, final int param_name) {
final PointerBuffer bytes = APIUtil.getBufferPointer();
final int errcode = clGetProgramBuildInfo(program, device, param_name, null, bytes);
if ( errcode != CL_SUCCESS )
throw new IllegalArgumentException("Invalid parameter specified: " + LWJGLUtil.toHexString(param_name));
return (int)bytes.get(0);
}
}
static final InfoUtil<CLSampler> CL_SAMPLER_UTIL = new InfoUtilAbstract<CLSampler>() {
protected int getInfo(final CLSampler sampler, final int param_name, final ByteBuffer param_value, final PointerBuffer param_value_size_ret) {
return clGetSamplerInfo(sampler, param_name, param_value, param_value_size_ret);
}
};
}