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package com.mbien.opencl;
import com.mbien.opencl.CLMemory.Mem;
import com.mbien.opencl.CLSampler.AddressingMode;
import com.mbien.opencl.CLSampler.FilteringMode;
import com.sun.gluegen.runtime.CPU;
import com.sun.gluegen.runtime.PointerBuffer;
import java.io.BufferedReader;
import java.io.IOException;
import java.io.InputStream;
import java.io.InputStreamReader;
import java.nio.Buffer;
import java.nio.ByteBuffer;
import java.nio.ByteOrder;
import java.nio.DoubleBuffer;
import java.nio.FloatBuffer;
import java.nio.IntBuffer;
import java.nio.LongBuffer;
import java.nio.ShortBuffer;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import static com.mbien.opencl.CLException.*;
import static com.sun.gluegen.runtime.BufferFactory.*;
/**
* CLContext is responsible for managing objects such as command-queues, memory,
* program and kernel objects and for executing kernels on one or more devices
* specified in the context.
* @author Michael Bien
*/
public class CLContext implements CLResource {
final CL cl;
public final long ID;
protected CLDevice[] devices;
protected final List<CLProgram> programs;
protected final List<CLSampler> samplers;
protected final List<CLMemory<? extends Buffer>> memoryObjects;
protected final Map<CLDevice, List<CLCommandQueue>> queuesMap;
protected CLContext(long contextID) {
this.cl = CLPlatform.getLowLevelBinding();
this.ID = contextID;
this.programs = new ArrayList<CLProgram>();
this.samplers = new ArrayList<CLSampler>();
this.memoryObjects = new ArrayList<CLMemory<? extends Buffer>>();
this.queuesMap = new HashMap<CLDevice, List<CLCommandQueue>>();
}
private final void initDevices() {
if (devices == null) {
int sizeofDeviceID = CPU.is32Bit() ? 4 : 8;
PointerBuffer deviceCount = PointerBuffer.allocateDirect(1);
int ret = cl.clGetContextInfo(ID, CL.CL_CONTEXT_DEVICES, 0, null, deviceCount);
checkForError(ret, "can not enumerate devices");
ByteBuffer deviceIDs = ByteBuffer.allocateDirect((int)deviceCount.get()).order(ByteOrder.nativeOrder());
ret = cl.clGetContextInfo(ID, CL.CL_CONTEXT_DEVICES, deviceIDs.capacity(), deviceIDs, null);
checkForError(ret, "can not enumerate devices");
devices = new CLDevice[deviceIDs.capacity() / sizeofDeviceID];
for (int i = 0; i < devices.length; i++) {
devices[i] = new CLDevice(this, CPU.is32Bit() ? deviceIDs.getInt() : deviceIDs.getLong());
}
}
}
/**
* Creates a context on all available devices (CL_DEVICE_TYPE_ALL).
* The platform to be used is implementation dependent.
*/
public static final CLContext create() {
Buffer properties = setupContextProperties(null);
return new CLContext(createContextFromType(properties, CL.CL_DEVICE_TYPE_ALL));
}
/**
* Creates a context on the specified device types.
* The platform to be used is implementation dependent.
*/
public static final CLContext create(CLDevice.Type... deviceTypes) {
return create(null, deviceTypes);
}
/**
* Creates a context on the specified devices.
* The platform to be used is implementation dependent.
*/
public static final CLContext create(CLDevice... devices) {
return create(null, devices);
}
/**
* Creates a context on the specified platform on all available devices (CL_DEVICE_TYPE_ALL).
*/
public static final CLContext create(CLPlatform platform) {
return create(platform, CLDevice.Type.ALL);
}
/**
* Creates a context on the specified platform and with the specified
* device types.
*/
private static final CLContext create(CLPlatform platform, CLDevice.Type... deviceTypes) {
long type = 0;
if(deviceTypes != null) {
for (int i = 0; i < deviceTypes.length; i++) {
type |= deviceTypes[i].TYPE;
}
}
Buffer properties = setupContextProperties(platform);
return new CLContext(createContextFromType(properties, type));
}
/**
* Creates a context on the specified platform and with the specified
* devices.
*/
private static final CLContext create(CLPlatform platform, CLDevice... devices) {
long[] deviceIDs = new long[devices.length];
for (int i = 0; i < devices.length; i++) {
deviceIDs[i] = devices[i].ID;
}
Buffer properties = setupContextProperties(platform);
return new CLContext(createContext(properties, deviceIDs));
}
protected static final long createContextFromType(Buffer properties, long deviceType) {
IntBuffer status = IntBuffer.allocate(1);
long context = CLPlatform.getLowLevelBinding().clCreateContextFromType(properties, deviceType, null, null, status);
checkForError(status.get(), "can not create CL context");
return context;
}
protected static final long createContext(Buffer properties, long[] devices) {
IntBuffer status = IntBuffer.allocate(1);
long context = CLPlatform.getLowLevelBinding().clCreateContext(properties, devices, null, null, status);
checkForError(status.get(), "can not create CL context");
return context;
}
private static final Buffer setupContextProperties(CLPlatform platform) {
if(platform == null) {
CLPlatform[] platforms = CLPlatform.listCLPlatforms();
if(platforms.length > 0)
platform = platforms[0];
}
Buffer properties = null;
if(platform != null) {
if(CPU.is32Bit()){
properties = ByteBuffer.allocate(4*3).order(ByteOrder.nativeOrder())
.putInt(CL.CL_CONTEXT_PLATFORM).putInt((int)platform.ID).putInt(0); // 0 terminated array
}else{
properties = LongBuffer.allocate(3)
.put(CL.CL_CONTEXT_PLATFORM).put(platform.ID).put(0); // 0 terminated array
}
properties.rewind();
}
return properties;
}
/**
* Creates a program from the given sources, the program is not build yet.
*/
public CLProgram createProgram(String src) {
CLProgram program = new CLProgram(this, src);
programs.add(program);
return program;
}
/**
* Creates a program and reads the sources from stream, the program is not build yet.
* @throws IOException when a IOException occurred while reading or closing the stream.
*/
public CLProgram createProgram(InputStream sources) throws IOException {
if(sources == null)
throw new IllegalArgumentException("input stream for program sources must not be null");
BufferedReader reader = new BufferedReader(new InputStreamReader(sources));
StringBuilder sb = new StringBuilder();
String line = null;
try {
while ((line = reader.readLine()) != null)
sb.append(line).append("\n");
} finally {
sources.close();
}
return createProgram(sb.toString());
}
/**
* Creates a CLBuffer with the specified flags and element count. No flags creates a MEM.READ_WRITE buffer.
*/
public final CLBuffer<ShortBuffer> createShortBuffer(int size, Mem... flags) {
return createBuffer(newDirectByteBuffer(size*SIZEOF_SHORT).asShortBuffer(), flags);
}
/**
* Creates a CLBuffer with the specified flags and element count. No flags creates a MEM.READ_WRITE buffer.
*/
public final CLBuffer<IntBuffer> createIntBuffer(int size, Mem... flags) {
return createBuffer(newDirectByteBuffer(size*SIZEOF_INT).asIntBuffer(), flags);
}
/**
* Creates a CLBuffer with the specified flags and element count. No flags creates a MEM.READ_WRITE buffer.
*/
public final CLBuffer<LongBuffer> createLongBuffer(int size, Mem... flags) {
return createBuffer(newDirectByteBuffer(size*SIZEOF_LONG).asLongBuffer(), flags);
}
/**
* Creates a CLBuffer with the specified flags and element count. No flags creates a MEM.READ_WRITE buffer.
*/
public final CLBuffer<FloatBuffer> createFloatBuffer(int size, Mem... flags) {
return createBuffer(newDirectByteBuffer(size*SIZEOF_FLOAT).asFloatBuffer(), flags);
}
/**
* Creates a CLBuffer with the specified flags and element count. No flags creates a MEM.READ_WRITE buffer.
*/
public final CLBuffer<DoubleBuffer> createDoubleBuffer(int size, Mem... flags) {
return createBuffer(newDirectByteBuffer(size*SIZEOF_DOUBLE).asDoubleBuffer(), flags);
}
/**
* Creates a CLBuffer with the specified flags and buffer size in bytes. No flags creates a MEM.READ_WRITE buffer.
*/
public final CLBuffer<ByteBuffer> createByteBuffer(int size, Mem... flags) {
return createByteBuffer(size, Mem.flagsToInt(flags));
}
/**
* Creates a CLBuffer with the specified flags and buffer size in bytes.
*/
public final CLBuffer<ByteBuffer> createByteBuffer(int size, int flags) {
return createBuffer(newDirectByteBuffer(size), flags);
}
/**
* Creates a CLBuffer with the specified flags. No flags creates a MEM.READ_WRITE buffer.
*/
public final <B extends Buffer> CLBuffer<B> createBuffer(B directBuffer, Mem... flags) {
return createBuffer(directBuffer, Mem.flagsToInt(flags));
}
/**
* Creates a CLBuffer with the specified flags.
*/
public final <B extends Buffer> CLBuffer<B> createBuffer(B directBuffer, int flags) {
CLBuffer<B> buffer = CLBuffer.create(this, directBuffer, flags);
memoryObjects.add(buffer);
return buffer;
}
CLCommandQueue createCommandQueue(CLDevice device, long properties) {
CLCommandQueue queue = new CLCommandQueue(this, device, properties);
List<CLCommandQueue> list = queuesMap.get(device);
if(list == null) {
list = new ArrayList<CLCommandQueue>();
queuesMap.put(device, list);
}
list.add(queue);
return queue;
}
public CLSampler createSampler(AddressingMode addrMode, FilteringMode filtMode, boolean normalizedCoords) {
CLSampler sampler = new CLSampler(this, addrMode, filtMode, normalizedCoords);
samplers.add(sampler);
return sampler;
}
void onProgramReleased(CLProgram program) {
programs.remove(program);
}
void onMemoryReleased(CLMemory<?> buffer) {
memoryObjects.remove(buffer);
}
void onCommandQueueReleased(CLDevice device, CLCommandQueue queue) {
List<CLCommandQueue> list = queuesMap.get(device);
list.remove(queue);
// remove empty lists from map
if(list.isEmpty())
queuesMap.remove(device);
}
void onSamplerReleased(CLSampler sampler) {
samplers.remove(sampler);
}
/**
* Releases the context and all resources.
*/
public void release() {
//release all resources
while(!programs.isEmpty())
programs.get(0).release();
while(!memoryObjects.isEmpty())
memoryObjects.get(0).release();
while(!samplers.isEmpty())
samplers.get(0).release();
for (CLDevice device : devices) {
List<CLCommandQueue> list = queuesMap.get(device);
if(list != null) {
while(!list.isEmpty()) {
list.get(0).release();
}
}
}
int ret = cl.clReleaseContext(ID);
checkForError(ret, "error releasing context");
}
/**
* Returns a read only view of all programs associated with this context.
*/
public List<CLProgram> getCLPrograms() {
return Collections.unmodifiableList(programs);
}
/**
* Returns a read only view of all allocated memory objects associated with this context.
*/
public List<CLMemory<? extends Buffer>> getCLMemoryObjects() {
return Collections.unmodifiableList(memoryObjects);
}
/**
* Returns a read only view of all samplers associated with this context.
*/
public List<CLSampler> getCLSamplers() {
return Collections.unmodifiableList(samplers);
}
/**
* Returns the device with maximal FLOPS from this context.
* The device speed is estimated by calulating the product of
* MAX_COMPUTE_UNITS and MAX_CLOCK_FREQUENCY.
* @see #getMaxFlopsDevice(com.mbien.opencl.CLDevice.Type)
*/
public CLDevice getMaxFlopsDevice() {
return CLPlatform.findMaxFlopsDevice(getCLDevices());
}
/**
* Returns the device with maximal FLOPS and the specified type from this context.
* The device speed is estimated by calulating the product of
* MAX_COMPUTE_UNITS and MAX_CLOCK_FREQUENCY.
*/
public CLDevice getMaxFlopsDevice(CLDevice.Type type) {
return CLPlatform.findMaxFlopsDevice(getCLDevices(), type);
}
/**
* Returns all devices associated with this CLContext.
*/
public CLDevice[] getCLDevices() {
initDevices();
return devices;
}
CLDevice getCLDevice(long dID) {
CLDevice[] deviceArray = getCLDevices();
for (int i = 0; i < deviceArray.length; i++) {
if(dID == deviceArray[i].ID)
return deviceArray[i];
}
return null;
}
@Override
public String toString() {
return "CLContext [id: " + ID
+ " #devices: " + getCLDevices().length
+ "]";
}
@Override
public boolean equals(Object obj) {
if (obj == null) {
return false;
}
if (getClass() != obj.getClass()) {
return false;
}
final CLContext other = (CLContext) obj;
if (this.ID != other.ID) {
return false;
}
return true;
}
@Override
public int hashCode() {
int hash = 7;
hash = 23 * hash + (int) (this.ID ^ (this.ID >>> 32));
return hash;
}
}
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