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|
/*
* Copyright 2009 - 2010 JogAmp Community. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without modification, are
* permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this list of
* conditions and the following disclaimer.
*
* 2. 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.
*
* THIS SOFTWARE IS PROVIDED BY JogAmp Community ``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 JogAmp Community OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
* ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* The views and conclusions contained in the software and documentation are those of the
* authors and should not be interpreted as representing official policies, either expressed
* or implied, of JogAmp Community.
*/
package com.jogamp.opencl;
import com.jogamp.common.nio.CachedBufferFactory;
import com.jogamp.opencl.llb.CLProgramBinding;
import com.jogamp.opencl.util.CLProgramConfiguration;
import com.jogamp.opencl.util.CLUtil;
import com.jogamp.common.os.Platform;
import com.jogamp.common.nio.NativeSizeBuffer;
import com.jogamp.common.nio.PointerBuffer;
import com.jogamp.opencl.llb.CLKernelBinding;
import com.jogamp.opencl.llb.impl.BuildProgramCallback;
import com.jogamp.opencl.util.CLBuildListener;
import java.nio.ByteBuffer;
import java.nio.IntBuffer;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.LinkedHashMap;
import java.util.Map.Entry;
import java.util.Set;
import java.util.Map;
import java.util.concurrent.locks.ReentrantLock;
import static com.jogamp.opencl.CLException.*;
import static com.jogamp.opencl.llb.CL.*;
import static com.jogamp.common.nio.Buffers.*;
/**
* Represents a OpenCL program executed on one or more {@link CLDevice}s.
* A CLProgram must be build using one of the build methods before creating {@link CLKernel}s.
* @see CLContext#createProgram(java.io.InputStream)
* @see CLContext#createProgram(java.lang.String)
* @see CLContext#createProgram(java.util.Map)
* @author Michael Bien
*/
public class CLProgram extends CLObjectResource {
private final static ReentrantLock buildLock = new ReentrantLock();
private final CLProgramBinding binding;
private final Set<CLKernel> kernels;
private Map<CLDevice, Status> buildStatusMap;
private boolean executable;
private CLProgram(CLContext context, long id) {
super(context, id);
this.kernels = Collections.synchronizedSet(new HashSet<CLKernel>());
this.binding = context.getPlatform().getProgramBinding();
}
static CLProgram create(CLContext context, String src) {
IntBuffer status = newDirectIntBuffer(1);
NativeSizeBuffer length = NativeSizeBuffer.allocateDirect(1).put(0, src.length());
String[] srcArray = new String[] {src};
// Create the program
CLProgramBinding binding = context.getPlatform().getProgramBinding();
long id = binding.clCreateProgramWithSource(context.ID, 1, srcArray, length, status);
int err = status.get();
if(err != CL_SUCCESS) {
throw newException(err, "can not create program with source on "+context);
}
return new CLProgram(context, id);
}
static CLProgram create(CLContext context, Map<CLDevice, byte[]> binaries) {
Set<Entry<CLDevice, byte[]>> entries = binaries.entrySet();
// calculate buffer size
int binarySize = 0;
for (Map.Entry<CLDevice, byte[]> entry : entries) {
binarySize += entry.getValue().length;
}
int pbSize = NativeSizeBuffer.elementSize();
int deviceCount = binaries.size();
CachedBufferFactory bf = CachedBufferFactory.create(binarySize + pbSize*deviceCount*3 + 4, true);
NativeSizeBuffer devices = NativeSizeBuffer.wrap(bf.newDirectByteBuffer(deviceCount*pbSize));
PointerBuffer codeBuffers = PointerBuffer.wrap(bf.newDirectByteBuffer(deviceCount*pbSize));
NativeSizeBuffer lengths = NativeSizeBuffer.wrap(bf.newDirectByteBuffer(deviceCount*pbSize));
int i = 0;
for (Map.Entry<CLDevice, byte[]> entry : entries) {
byte[] bytes = entry.getValue();
CLDevice device = entry.getKey();
devices.put(device.ID);
lengths.put(bytes.length);
codeBuffers.referenceBuffer(i, bf.newDirectByteBuffer(bytes));
i++;
}
devices.rewind();
lengths.rewind();
IntBuffer errBuffer = bf.newDirectIntBuffer(1);
// IntBuffer status = newDirectByteBuffer(binaries.size()*4).asIntBuffer();
CLProgramBinding binding = context.getPlatform().getProgramBinding();
long id = binding.clCreateProgramWithBinary(context.ID, devices.capacity(), devices, lengths, codeBuffers, /*status*/null, errBuffer);
// while(status.remaining() != 0) {
// checkForError(status.get(), "unable to load binaries on all devices");
// }
int err = errBuffer.get();
if(err != CL_SUCCESS) {
throw newException(err, "can not create program on "+context +" with binaries "+binaries);
}
return new CLProgram(context, id);
}
private void initBuildStatus() {
if(buildStatusMap == null) {
// synchronized(buildLock) {
Map<CLDevice, Status> map = new HashMap<CLDevice, Status>();
CLDevice[] devices = getCLDevices();
for (CLDevice device : devices) {
Status status = getBuildStatus(device);
if(status == Status.BUILD_SUCCESS) {
executable = true;
}
map.put(device, status);
}
this.buildStatusMap = Collections.unmodifiableMap(map);
// }
}
}
private String getBuildInfoString(CLDevice device, int flag) {
if(released) {
return "";
}
NativeSizeBuffer size = NativeSizeBuffer.allocateDirect(1);
int ret = binding.clGetProgramBuildInfo(ID, device.ID, flag, 0, null, size);
if(ret != CL_SUCCESS) {
throw newException(ret, "on clGetProgramBuildInfo with "+device);
}
ByteBuffer buffer = newDirectByteBuffer((int)size.get(0));
ret = binding.clGetProgramBuildInfo(ID, device.ID, flag, buffer.capacity(), buffer, null);
if(ret != CL_SUCCESS) {
throw newException(ret, "on clGetProgramBuildInfo with "+device);
}
return CLUtil.clString2JavaString(buffer, (int)size.get(0));
}
private String getProgramInfoString(int flag) {
if(released) {
return "";
}
NativeSizeBuffer size = NativeSizeBuffer.allocateDirect(1);
int ret = binding.clGetProgramInfo(ID, flag, 0, null, size);
checkForError(ret, "on clGetProgramInfo");
ByteBuffer buffer = newDirectByteBuffer((int)size.get(0));
ret = binding.clGetProgramInfo(ID, flag, buffer.capacity(), buffer, null);
checkForError(ret, "on clGetProgramInfo");
return CLUtil.clString2JavaString(buffer, (int)size.get(0));
}
private int getBuildInfoInt(CLDevice device, int flag) {
ByteBuffer buffer = newDirectByteBuffer(4);
int ret = binding.clGetProgramBuildInfo(ID, device.ID, flag, buffer.capacity(), buffer, null);
checkForError(ret, "error on clGetProgramBuildInfo");
return buffer.getInt();
}
private CLKernelBinding getKernelBinding() {
return getPlatform().getKernelBinding();
}
/**
* Builds this program for all devices associated with the context.
* @return this
*/
public CLProgram build() {
build(null, (String)null, (CLDevice[]) null);
return this;
}
/**
* Builds this program for all devices associated with the context.
* @see CLBuildListener
* @param listener A listener who is notified when the program was built.
* @return this
*/
public CLProgram build(CLBuildListener listener) {
build(listener, null, (CLDevice[])null);
return this;
}
/**
* Builds this program for the given devices.
* @param devices A list of devices this program should be build on or null for all devices of its context.
* @return this
*/
public CLProgram build(CLDevice... devices) {
build(null, (String) null, devices);
return this;
}
/**
* Builds this program for the given devices.
* @see CLBuildListener
* @param listener A listener who is notified when the program was built.
* @param devices A list of devices this program should be build on or null for all devices of its context.
* @return this
*/
public CLProgram build(CLBuildListener listener, CLDevice... devices) {
build(listener,null, devices);
return this;
}
/**
* Builds this program for all devices associated with the context using the specified build options.
* @see CompilerOptions
* @return this
*/
public CLProgram build(String options) {
build(null, options, (CLDevice[])null);
return this;
}
/**
* Builds this program for all devices associated with the context using the specified build options.
* @see CompilerOptions
* @see CLBuildListener
* @param listener A listener who is notified when the program was built.
* @return this
*/
public CLProgram build(CLBuildListener listener, String options) {
build(listener, options, (CLDevice[])null);
return this;
}
/**
* Builds this program for all devices associated with the context using the specified build options.
* @see CompilerOptions
*/
public CLProgram build(String... options) {
build(null, optionsOf(options), (CLDevice[])null);
return this;
}
/**
* Builds this program for all devices associated with the context using the specified build options.
* @see CompilerOptions
* @see CLBuildListener
* @param listener A listener who is notified when the program was built.
*/
public CLProgram build(CLBuildListener listener, String... options) {
build(listener, optionsOf(options), (CLDevice[])null);
return this;
}
/**
* Builds this program for the given devices and with the specified build options. In case this program was
* already built and there are kernels associated with this program they will be released first before rebuild.
* @see CompilerOptions
* @param devices A list of devices this program should be build on or null for all devices of its context.
* @return this
*/
public CLProgram build(String options, CLDevice... devices) {
build(null, options, devices);
return this;
}
/**
* Builds this program for the given devices and with the specified build options. In case this program was
* already built and there are kernels associated with this program they will be released first before rebuild.
* @see CompilerOptions
* @see CLBuildListener
* @return this
* @param devices A list of devices this program should be build on or null for all devices of its context.
* @param listener A listener who is notified when the program was built.
*/
public CLProgram build(final CLBuildListener listener, String options, CLDevice... devices) {
if(released) {
throw new CLException("can not build a released program");
}
if(!kernels.isEmpty()) {
//No changes to the program executable are allowed while there are
//kernel objects associated with a program object.
releaseKernels();
}
NativeSizeBuffer deviceIDs = null;
int count = 0;
if(devices != null && devices.length != 0) {
deviceIDs = NativeSizeBuffer.allocateDirect(devices.length);
for (int i = 0; i < devices.length; i++) {
deviceIDs.put(i, devices[i].ID);
}
deviceIDs.rewind();
count = devices.length;
}
// nvidia driver doesn't like empty strings
if(options != null && options.trim().isEmpty()) {
options = null;
}
// invalidate build status
buildStatusMap = null;
executable = false;
BuildProgramCallback callback = null;
if(listener != null) {
callback = new BuildProgramCallback() {
@Override
public void buildFinished(long cl_program) {
buildLock.unlock();
listener.buildFinished(CLProgram.this);
}
};
}
// Build the program
int ret = 0;
// spec: building programs is not threadsafe, we are locking the API call to
// make sure only one thread calls it at a time until it completes (asynchronous or synchronously).
{
buildLock.lock();
boolean exception = true;
try{
ret = binding.clBuildProgram(ID, count, deviceIDs, options, callback);
exception = false;
}finally{
if(callback == null || exception) {
buildLock.unlock();
}
}
}
if(ret != CL_SUCCESS) {
throw newException(ret, "\n"+getBuildLog());
}
return this;
}
/**
* Prepares the build for this program by returning a new {@link CLProgramConfiguration}.
*/
public CLProgramConfiguration prepare() {
return CLProgramBuilder.createConfiguration(this);
}
/**
* Creates a kernel with the specified kernel name.
*/
public CLKernel createCLKernel(String kernelName) {
if(released) {
return null;
}
int[] err = new int[1];
long id = getKernelBinding().clCreateKernel(ID, kernelName, err, 0);
if(err[0] != CL_SUCCESS) {
throw newException(err[0], "unable to create Kernel with name: "+kernelName);
}
CLKernel kernel = new CLKernel(this, kernelName, id);
kernels.add(kernel);
return kernel;
}
/**
* Creates a kernel with the specified kernel name and initializes it with the given arguments.
* @see CLKernel#setArgs(java.lang.Object[])
*/
public CLKernel createCLKernel(String kernelName, Object... args) {
if(released) {
return null;
}
return createCLKernel(kernelName).setArgs(args);
}
/**
* Creates all kernels of this program and stores them a Map with the kernel name as key.
*/
public Map<String, CLKernel> createCLKernels() {
if(released) {
return Collections.emptyMap();
}
HashMap<String, CLKernel> newKernels = new HashMap<String, CLKernel>();
IntBuffer numKernels = newDirectByteBuffer(4).asIntBuffer();
CLKernelBinding kernelBinding = getKernelBinding();
int ret = kernelBinding.clCreateKernelsInProgram(ID, 0, null, numKernels);
if(ret != CL_SUCCESS) {
throw newException(ret, "can not create kernels for "+this);
}
if(numKernels.get(0) > 0) {
NativeSizeBuffer kernelIDs = NativeSizeBuffer.allocateDirect(numKernels.get(0));
ret = kernelBinding.clCreateKernelsInProgram(ID, kernelIDs.capacity(), kernelIDs, null);
if(ret != CL_SUCCESS) {
throw newException(ret, "can not create "+kernelIDs.capacity()+" kernels for "+this);
}
for (int i = 0; i < kernelIDs.capacity(); i++) {
CLKernel kernel = new CLKernel(this, kernelIDs.get(i));
kernels.add(kernel);
newKernels.put(kernel.name, kernel);
}
}else{
initBuildStatus();
if(!isExecutable()) {
// It is illegal to create kernels from a not executable program.
// For consistency between AMD and NVIDIA drivers throw an exception at this point.
throw newException(CL_INVALID_PROGRAM_EXECUTABLE,
"can not initialize kernels, program is not executable. status: "+buildStatusMap);
}
}
return newKernels;
}
void onKernelReleased(CLKernel kernel) {
this.kernels.remove(kernel);
}
/**
* Releases this program with its kernels.
*/
@Override
public synchronized void release() {
super.release();
releaseKernels();
executable = false;
buildStatusMap = null;
int ret = binding.clReleaseProgram(ID);
context.onProgramReleased(this);
if(ret != CL_SUCCESS) {
throw newException(ret, "can not release "+this);
}
}
private void releaseKernels() {
synchronized(kernels) {
if(!kernels.isEmpty()) {
// copy to array to prevent concurrent modification exception
CLKernel[] array = kernels.toArray(new CLKernel[kernels.size()]);
for (CLKernel kernel : array) {
if(!kernel.isReleased()) {
kernel.release();
}
}
}
}
}
/**
* Returns all devices associated with this program.
*/
public CLDevice[] getCLDevices() {
if(released) {
return new CLDevice[0];
}
NativeSizeBuffer size = NativeSizeBuffer.allocateDirect(1);
int ret = binding.clGetProgramInfo(ID, CL_PROGRAM_DEVICES, 0, null, size);
if(ret != CL_SUCCESS) {
throw newException(ret, "on clGetProgramInfo of "+this);
}
ByteBuffer bb = newDirectByteBuffer((int) size.get(0));
ret = binding.clGetProgramInfo(ID, CL_PROGRAM_DEVICES, bb.capacity(), bb, null);
if(ret != CL_SUCCESS) {
throw newException(ret, "on clGetProgramInfo of "+this);
}
int count = bb.capacity() / (Platform.is32Bit()?4:8);
CLDevice[] devices = new CLDevice[count];
for (int i = 0; i < count; i++) {
devices[i] = context.getDevice(Platform.is32Bit()?bb.getInt():bb.getLong());
}
return devices;
}
/**
* Returns the build log of this program on all devices. The contents of the log are
* implementation dependent.
*/
public String getBuildLog() {
if(released) {
return "";
}
StringBuilder sb = new StringBuilder(200);
CLDevice[] devices = getCLDevices();
for (int i = 0; i < devices.length; i++) {
CLDevice device = devices[i];
sb.append(device).append(" build log:\n");
String log = getBuildLog(device).trim();
sb.append(log.isEmpty()?" <empty>":log);
if(i != devices.length-1)
sb.append("\n");
}
return sb.toString();
}
/**
* Returns the build status enum of this program for each device as Map.
*/
public Map<CLDevice,Status> getBuildStatus() {
if(released) {
return Collections.emptyMap();
}
initBuildStatus();
return buildStatusMap;
}
/**
* Returns true if the build status 'BUILD_SUCCESS' for at least one device
* of this program exists.
*/
public boolean isExecutable() {
if(released) {
return false;
}
initBuildStatus();
return executable;
}
/**
* Returns the build log for this program on the specified device. The contents
* of the log are implementation dependent log can be an empty String.
*/
public String getBuildLog(CLDevice device) {
return getBuildInfoString(device, CL_PROGRAM_BUILD_LOG);
}
/**
* Returns the build status enum for this program on the specified device.
*/
public Status getBuildStatus(CLDevice device) {
if(released) {
return Status.BUILD_NONE;
}
int clStatus = getBuildInfoInt(device, CL_PROGRAM_BUILD_STATUS);
return Status.valueOf(clStatus);
}
/**
* Returns the source code of this program. Note: sources are not cached,
* each call of this method calls into Open
*/
public String getSource() {
// some drivers return IVE codes if the program haven't been built from source.
try{
return getProgramInfoString(CL_PROGRAM_SOURCE);
}catch(CLException.CLInvalidValueException ingore) {
return "";
}
}
/**
* Returns the binaries for this program in an ordered Map containing the device as key
* and the program binaries as value.
*/
public Map<CLDevice, byte[]> getBinaries() {
if(!isExecutable()) {
return Collections.emptyMap();
}
CLDevice[] devices = getCLDevices();
NativeSizeBuffer sizes = NativeSizeBuffer.allocateDirect(devices.length);
int ret = binding.clGetProgramInfo(ID, CL_PROGRAM_BINARY_SIZES, sizes.capacity()*NativeSizeBuffer.elementSize(), sizes.getBuffer(), null);
if(ret != CL_SUCCESS) {
throw newException(ret, "on clGetProgramInfo(CL_PROGRAM_BINARY_SIZES) of "+this);
}
int binariesSize = 0;
while(sizes.remaining() != 0) {
int size = (int) sizes.get();
binariesSize += size;
}
ByteBuffer binaries = newDirectByteBuffer(binariesSize);
long address = InternalBufferUtil.getDirectBufferAddress(binaries);
NativeSizeBuffer addresses = NativeSizeBuffer.allocateDirect(sizes.capacity());
sizes.rewind();
while(sizes.remaining() != 0) {
addresses.put(address);
address += sizes.get();
}
addresses.rewind();
ret = binding.clGetProgramInfo(ID, CL_PROGRAM_BINARIES, addresses.capacity()*NativeSizeBuffer.elementSize(), addresses.getBuffer(), null);
if(ret != CL_SUCCESS) {
throw newException(ret, "on clGetProgramInfo(CL_PROGRAM_BINARIES) of "+this);
}
Map<CLDevice, byte[]> map = new LinkedHashMap<CLDevice, byte[]>();
sizes.rewind();
for (int i = 0; i < devices.length; i++) {
byte[] bytes = new byte[(int)sizes.get()];
binaries.get(bytes);
map.put(devices[i], bytes);
}
return map;
}
/**
* Utility method which builds a properly seperated option string.
*/
public static String optionsOf(String... options) {
StringBuilder sb = new StringBuilder(options.length * 24);
for (int i = 0; i < options.length; i++) {
sb.append(options[i]);
if(i!= options.length-1)
sb.append(" ");
}
return sb.toString();
}
/**
* Utility method for defining macros as build options (Returns "-D name").
*/
public static String define(String name) {
return "-D "+name;
}
/**
* Utility method for defining macros as build options (Returns "-D name=value").
*/
public static String define(String name, Object value) {
return "-D "+name+"="+value;
}
@Override
public String toString() {
return "CLProgram [id: " + ID
+ " status: "+getBuildStatus()+"]";
}
@Override
public boolean equals(Object obj) {
if (obj == null) {
return false;
}
if (getClass() != obj.getClass()) {
return false;
}
final CLProgram other = (CLProgram) obj;
if (this.ID != other.ID) {
return false;
}
if (!this.context.equals(other.context)) {
return false;
}
return true;
}
@Override
public int hashCode() {
int hash = 7;
hash = 37 * hash + (this.context != null ? this.context.hashCode() : 0);
hash = 37 * hash + (int) (this.ID ^ (this.ID >>> 32));
return hash;
}
public enum Status {
BUILD_SUCCESS(CL_BUILD_SUCCESS),
BUILD_NONE(CL_BUILD_NONE),
BUILD_IN_PROGRESS(CL_BUILD_IN_PROGRESS),
BUILD_ERROR(CL_BUILD_ERROR);
/**
* Value of wrapped OpenCL device type.
*/
public final int STATUS;
private Status(int status) {
this.STATUS = status;
}
public static Status valueOf(int clBuildStatus) {
switch(clBuildStatus) {
case(CL_BUILD_SUCCESS):
return BUILD_SUCCESS;
case(CL_BUILD_NONE):
return BUILD_NONE;
case(CL_BUILD_IN_PROGRESS):
return BUILD_IN_PROGRESS;
case(CL_BUILD_ERROR):
return BUILD_ERROR;
// is this a standard state?
// case (CL_BUILD_PROGRAM_FAILURE):
// return BUILD_PROGRAM_FAILURE;
}
return null;
}
}
/**
* Common compiler options for the OpenCL compiler.
*/
public interface CompilerOptions {
/**
* Treat double precision floating-point constant as single precision constant.
*/
public final static String SINGLE_PRECISION_CONSTANTS = "-cl-single-precision-constant";
/**
* This option controls how single precision and double precision denormalized numbers are handled.
* If specified as a build option, the single precision denormalized numbers may be flushed to zero
* and if the optional extension for double precision is supported, double precision denormalized numbers
* may also be flushed to zero. This is intended to be a performance hint and the OpenCL compiler can choose
* not to flush denorms to zero if the device supports single precision (or double precision) denormalized numbers.<br>
* This option is ignored for single precision numbers if the device does not support single precision denormalized
* numbers i.e. {@link CLDevice.FPConfig#DENORM} is not present in the set returned by {@link CLDevice#getSingleFPConfig()}<br>
* This option is ignored for double precision numbers if the device does not support double precision or if it does support
* double precision but {@link CLDevice.FPConfig#DENORM} is not present in the set returned by {@link CLDevice#getDoubleFPConfig()}.<br>
* This flag only applies for scalar and vector single precision floating-point variables and computations on
* these floating-point variables inside a program. It does not apply to reading from or writing to image objects.
*/
public final static String DENORMS_ARE_ZERO = "-cl-denorms-are-zero";
/**
* This option disables all optimizations. The default is optimizations are enabled.
*/
public final static String DISABLE_OPT = "-cl-opt-disable";
/**
* This option allows the compiler to assume the strictest aliasing rules.
*/
public final static String STRICT_ALIASING = "-cl-strict-aliasing";
/**
* Allow a * b + c to be replaced by a mad. The mad computes a * b + c with reduced accuracy.
* For example, some OpenCL devices implement mad as truncate the result of a * b before adding it to c.
*/
public final static String ENABLE_MAD = "-cl-mad-enable";
/**
* Allow optimizations for floating-point arithmetic that ignore the signedness of zero.
* IEEE 754 arithmetic specifies the behavior of distinct +0.0 and -0.0 values, which then prohibits
* simplification of expressions such as x+0.0 or 0.0*x (even with -cl-finite-math-only ({@link #FINITE_MATH_ONLY})).
* This option implies that the sign of a zero result isn't significant.
*/
public final static String NO_SIGNED_ZEROS = "-cl-no-signed-zeros";
/**
* Allow optimizations for floating-point arithmetic that<br>
* (a) assume that arguments and results are valid,<br>
* (b) may violate IEEE 754 standard and<br>
* (c) may violate the OpenCL numerical compliance requirements as defined in section
* 7.4 for single-precision floating-point, section 9.3.9 for double-precision floating-point,
* and edge case behavior in section 7.5.
* This option includes the -cl-no-signed-zeros ({@link #NO_SIGNED_ZEROS})
* and -cl-mad-enable ({@link #ENABLE_MAD}) options.
*/
public final static String UNSAFE_MATH = "-cl-unsafe-math-optimizations";
/**
* Allow optimizations for floating-point arithmetic that assume that arguments and results are not NaNs or ±∞.
* This option may violate the OpenCL numerical compliance requirements defined in in section 7.4 for
* single-precision floating-point, section 9.3.9 for double-precision floating-point, and edge case behavior in section 7.5.
*/
public final static String FINITE_MATH_ONLY = "-cl-finite-math-only";
/**
* Sets the optimization options -cl-finite-math-only ({@link #FINITE_MATH_ONLY}) and -cl-unsafe-math-optimizations ({@link #UNSAFE_MATH}).
* This allows optimizations for floating-point arithmetic that may violate the IEEE 754
* standard and the OpenCL numerical compliance requirements defined in the specification
* in section 7.4 for single-precision floating-point, section 9.3.9 for double-precision
* floating-point, and edge case behavior in section 7.5. This option causes the preprocessor
* macro __FAST_RELAXED_MATH__ to be defined in the OpenCL program.
*/
public final static String FAST_RELAXED_MATH = "-cl-fast-relaxed-math";
/**
* Inhibit all warning messages.
*/
public final static String DISABLE_WARNINGS = "-w";
/**
* Make all warnings into errors.
*/
public final static String WARNINGS_ARE_ERRORS = "-Werror";
}
}
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