[ViewVC] Diff of: cvs/OpenCL/OpenCL.pm

Comparing OpenCL/OpenCL.pm (file contents):
Revision 1.50 by root, Tue Apr 24 13:30:49 2012 UTC vs.
Revision 1.65 by root, Mon Apr 30 23:35:16 2012 UTC

…		…
43		43
44	OpenCL::Event objects are used to signal when something is complete.	44	OpenCL::Event objects are used to signal when something is complete.
45		45
46	=head2 HELPFUL RESOURCES	46	=head2 HELPFUL RESOURCES
47		47
48	The OpenCL spec used to develop this module (1.2 spec was available, but	48	The OpenCL specs used to develop this module:
49	no implementation was available to me :).
50		49
51	http://www.khronos.org/registry/cl/specs/opencl-1.1.pdf	50	http://www.khronos.org/registry/cl/specs/opencl-1.1.pdf
		51	http://www.khronos.org/registry/cl/specs/opencl-1.2.pdf
		52	http://www.khronos.org/registry/cl/specs/opencl-1.2-extensions.pdf
52		53
53	OpenCL manpages:	54	OpenCL manpages:
54		55
55	http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/	56	http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/
		57	http://www.khronos.org/registry/cl/sdk/1.2/docs/man/xhtml/
56		58
57	If you are into UML class diagrams, the following diagram might help - if	59	If you are into UML class diagrams, the following diagram might help - if
58	not, it will be mildly cobfusing:	60	not, it will be mildly confusing (also, the class hierarchy of this module
		61	is much more fine-grained):
59		62
60	http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/classDiagram.html	63	http://www.khronos.org/registry/cl/sdk/1.2/docs/man/xhtml/classDiagram.html
61		64
62	Here's a tutorial from AMD (very AMD-centric, too), not sure how useful it	65	Here's a tutorial from AMD (very AMD-centric, too), not sure how useful it
63	is, but at least it's free of charge:	66	is, but at least it's free of charge:
64		67
65	http://developer.amd.com/zones/OpenCLZone/courses/Documents/Introduction_to_OpenCL_Programming%20Training_Guide%20%28201005%29.pdf	68	http://developer.amd.com/zones/OpenCLZone/courses/Documents/Introduction_to_OpenCL_Programming%20Training_Guide%20%28201005%29.pdf
…		…
138	=head2 Create a buffer with some predefined data, read it back synchronously,	141	=head2 Create a buffer with some predefined data, read it back synchronously,
139	then asynchronously.	142	then asynchronously.
140		143
141	my $buf = $ctx->buffer_sv (OpenCL::MEM_COPY_HOST_PTR, "helmut");	144	my $buf = $ctx->buffer_sv (OpenCL::MEM_COPY_HOST_PTR, "helmut");
142		145
143	$queue->enqueue_read_buffer ($buf, 1, 1, 3, my $data);	146	$queue->read_buffer ($buf, 1, 1, 3, my $data);
144	print "$data\n";	147	print "$data\n";
145		148
146	my $ev = $queue->enqueue_read_buffer ($buf, 0, 1, 3, my $data);	149	my $ev = $queue->read_buffer ($buf, 0, 1, 3, my $data);
147	$ev->wait;	150	$ev->wait;
148	print "$data\n"; # prints "elm"	151	print "$data\n"; # prints "elm"
149		152
150	=head2 Create and build a program, then create a kernel out of one of its	153	=head2 Create and build a program, then create a kernel out of one of its
151	functions.	154	functions.
…		…
157	$id = get_global_id (0);	160	$id = get_global_id (0);
158	output [id] = input [id] * input [id];	161	output [id] = input [id] * input [id];
159	}	162	}
160	';	163	';
161		164
162	my $prog = $ctx->program_with_source ($src);	165	my $prog = $ctx->build_program ($src);
163
164	# build croaks on compile errors, so catch it and print the compile errors
165	eval { $prog->build ($dev, "-cl-fast-relaxed-math"); 1 }
166	or die $prog->build_log;
167
168	my $kernel = $prog->kernel ("squareit");	166	my $kernel = $prog->kernel ("squareit");
169		167
170	=head2 Create some input and output float buffers, then call the	168	=head2 Create some input and output float buffers, then call the
171	'squareit' kernel on them.	169	'squareit' kernel on them.
172		170
…		…
176	# set buffer	174	# set buffer
177	$kernel->set_buffer (0, $input);	175	$kernel->set_buffer (0, $input);
178	$kernel->set_buffer (1, $output);	176	$kernel->set_buffer (1, $output);
179		177
180	# execute it for all 4 numbers	178	# execute it for all 4 numbers
181	$queue->enqueue_nd_range_kernel ($kernel, undef, [4], undef);	179	$queue->nd_range_kernel ($kernel, undef, [4], undef);
182		180
183	# enqueue a synchronous read	181	# enqueue a synchronous read
184	$queue->enqueue_read_buffer ($output, 1, 0, OpenCL::SIZEOF_FLOAT * 4, my $data);	182	$queue->read_buffer ($output, 1, 0, OpenCL::SIZEOF_FLOAT * 4, my $data);
185		183
186	# print the results:	184	# print the results:
187	printf "%s\n", join ", ", unpack "f*", $data;	185	printf "%s\n", join ", ", unpack "f*", $data;
188		186
189	=head2 The same enqueue operations as before, but assuming an out-of-order queue,	187	=head2 The same enqueue operations as before, but assuming an out-of-order queue,
190	showing off barriers.	188	showing off barriers.
191		189
192	# execute it for all 4 numbers	190	# execute it for all 4 numbers
193	$queue->enqueue_nd_range_kernel ($kernel, undef, [4], undef);	191	$queue->nd_range_kernel ($kernel, undef, [4], undef);
194		192
195	# enqueue a barrier to ensure in-order execution	193	# enqueue a barrier to ensure in-order execution
196	$queue->enqueue_barrier;	194	$queue->barrier;
197		195
198	# enqueue an async read	196	# enqueue an async read
199	$queue->enqueue_read_buffer ($output, 0, 0, OpenCL::SIZEOF_FLOAT * 4, my $data);	197	$queue->read_buffer ($output, 0, 0, OpenCL::SIZEOF_FLOAT * 4, my $data);
200		198
201	# wait for all requests to finish	199	# wait for all requests to finish
202	$queue->finish;	200	$queue->finish;
203		201
204	=head2 The same enqueue operations as before, but assuming an out-of-order queue,	202	=head2 The same enqueue operations as before, but assuming an out-of-order queue,
205	showing off event objects and wait lists.	203	showing off event objects and wait lists.
206		204
207	# execute it for all 4 numbers	205	# execute it for all 4 numbers
208	my $ev = $queue->enqueue_nd_range_kernel ($kernel, undef, [4], undef);	206	my $ev = $queue->nd_range_kernel ($kernel, undef, [4], undef);
209		207
210	# enqueue an async read	208	# enqueue an async read
211	$ev = $queue->enqueue_read_buffer ($output, 0, 0, OpenCL::SIZEOF_FLOAT * 4, my $data, $ev);	209	$ev = $queue->read_buffer ($output, 0, 0, OpenCL::SIZEOF_FLOAT * 4, my $data, $ev);
212		210
213	# wait for the last event to complete	211	# wait for the last event to complete
214	$ev->wait;	212	$ev->wait;
215		213
216	=head2 Use the OpenGL module to share a texture between OpenCL and OpenGL and draw some julia	214	=head2 Use the OpenGL module to share a texture between OpenCL and OpenGL and draw some julia
217	set tunnel effect.	215	set tunnel effect.
218		216
219	This is quite a long example to get you going.	217	This is quite a long example to get you going - you can download it from
		218	L<http://cvs.schmorp.de/OpenCL/examples/juliaflight>.
220		219
221	use OpenGL ":all";	220	use OpenGL ":all";
222	use OpenCL;	221	use OpenCL;
223		222
		223	my $S = $ARGV[0] \|\| 256; # window/texture size, smaller is faster
		224
224	# open a window and create a gl texture	225	# open a window and create a gl texture
225	OpenGL::glpOpenWindow width => 256, height => 256;	226	OpenGL::glpOpenWindow width => $S, height => $S;
226	my $texid = glGenTextures_p 1;	227	my $texid = glGenTextures_p 1;
227	glBindTexture GL_TEXTURE_2D, $texid;	228	glBindTexture GL_TEXTURE_2D, $texid;
228	glTexImage2D_c GL_TEXTURE_2D, 0, GL_RGBA8, 256, 256, 0, GL_RGBA, GL_UNSIGNED_BYTE, 0;	229	glTexImage2D_c GL_TEXTURE_2D, 0, GL_RGBA8, $S, $S, 0, GL_RGBA, GL_UNSIGNED_BYTE, 0;
229		230
230	# find and use the first opencl device that let's us get a shared opengl context	231	# find and use the first opencl device that let's us get a shared opengl context
231	my $platform;	232	my $platform;
232	my $dev;	233	my $dev;
233	my $ctx;	234	my $ctx;
…		…
252	# now the boring opencl code	253	# now the boring opencl code
253	my $src = <<EOF;	254	my $src = <<EOF;
254	kernel void	255	kernel void
255	juliatunnel (write_only image2d_t img, float time)	256	juliatunnel (write_only image2d_t img, float time)
256	{	257	{
257	float2 p = (float2)(get_global_id (0), get_global_id (1)) / 256.f * 2.f - 1.f;	258	int2 xy = (int2)(get_global_id (0), get_global_id (1));
		259	float2 p = convert_float2 (xy) / $S.f * 2.f - 1.f;
258		260
259	float2 m = (float2)(1.f, p.y) / fabs (p.x);	261	float2 m = (float2)(1.f, p.y) / fabs (p.x); // tunnel
260	m.x = fabs (fmod (m.x + time * 0.05f, 4.f)) - 2.f;	262	m.x = fabs (fmod (m.x + time * 0.05f, 4.f) - 2.f);
261		263
262	float2 z = m;	264	float2 z = m;
263	float2 c = (float2)(sin (time * 0.05005), cos (time * 0.06001));	265	float2 c = (float2)(sin (time * 0.01133f), cos (time * 0.02521f));
264		266
265	for (int i = 0; i < 25 && dot (z, z) < 4.f; ++i)	267	for (int i = 0; i < 25 && dot (z, z) < 4.f; ++i) // standard julia
266	z = (float2)(z.x * z.x - z.y * z.y, 2.f * z.x * z.y) + c;	268	z = (float2)(z.x * z.x - z.y * z.y, 2.f * z.x * z.y) + c;
267		269
268	float3 colour = (float3)(z.x, z.y, z.x * z.y);	270	float3 colour = (float3)(z.x, z.y, atan2 (z.y, z.x));
269	write_imagef (img, (int2)(get_global_id (0), get_global_id (1)), (float4)(colour * p.x * p.x, 1.));	271	write_imagef (img, xy, (float4)(colour * p.x * p.x, 1.));
270	}	272	}
271	EOF	273	EOF
		274
272	my $prog = $ctx->program_with_source ($src);	275	my $prog = $ctx->build_program ($src);
273	eval { $prog->build ($dev); 1 }
274	or die $prog->build_log ($dev);
275
276	my $kernel = $prog->kernel ("juliatunnel");	276	my $kernel = $prog->kernel ("juliatunnel");
277		277
278	# program compiled, kernel ready, now draw and loop	278	# program compiled, kernel ready, now draw and loop
279		279
280	for (my $time; ; ++$time) {	280	for (my $time; ; ++$time) {
281	# acquire objects from opengl	281	# acquire objects from opengl
282	$queue->enqueue_acquire_gl_objects ([$tex]);	282	$queue->acquire_gl_objects ([$tex]);
283		283
284	# configure and run our kernel	284	# configure and run our kernel
285	$kernel->set_image2d (0, $tex);	285	$kernel->setf ("mf", $tex, $time*2); # mf = memory object, float
286	$kernel->set_float (1, $time);
287	$queue->enqueue_nd_range_kernel ($kernel, undef, [256, 256], undef);	286	$queue->nd_range_kernel ($kernel, undef, [$S, $S], undef);
288		287
289	# release objects to opengl again	288	# release objects to opengl again
290	$queue->enqueue_release_gl_objects ([$tex]);	289	$queue->release_gl_objects ([$tex]);
291		290
292	# wait	291	# wait
293	$queue->finish;	292	$queue->finish;
294		293
295	# now draw the texture, the defaults should be all right	294	# now draw the texture, the defaults should be all right
…		…
305		304
306	glXSwapBuffers;	305	glXSwapBuffers;
307		306
308	select undef, undef, undef, 1/60;	307	select undef, undef, undef, 1/60;
309	}	308	}
		309
		310	=item How to modify the previous example to not rely on GL sharing.
		311
		312	For those poor souls with only a sucky CPU OpenCL implementation, you
		313	currently have to read the image into some perl scalar, and then modify a
		314	texture or use glDrawPixels or so).
		315
		316	First, when you don't need gl sharing, you can create the context much simpler:
		317
		318	$ctx = $platform->context (undef, [$dev])
		319
		320	To use a texture, you would modify the above example by creating an
		321	OpenCL::Image manually instead of deriving it from a texture:
		322
		323	my $tex = $ctx->image2d (OpenCL::MEM_WRITE_ONLY, OpenCL::RGBA, OpenCL::UNORM_INT8, $S, $S);
		324
		325	And in the darw loop, intead of acquire_gl_objects/release_gl_objects, you
		326	would read the image2d after the kernel has written it:
		327
		328	$queue->read_image ($tex, 0, 0, 0, 0, $S, $S, 1, 0, 0, my $data);
		329
		330	And then you would upload the pixel data to the texture (or use glDrawPixels):
		331
		332	glTexSubImage2D_s GL_TEXTURE_2D, 0, 0, 0, $S, $S, GL_RGBA, GL_UNSIGNED_BYTE, $data;
		333
		334	The fully modified example can be found at
		335	L<http://cvs.schmorp.de/OpenCL/examples/juliaflight-nosharing>.
310		336
311	=head1 DOCUMENTATION	337	=head1 DOCUMENTATION
312		338
313	=head2 BASIC CONVENTIONS	339	=head2 BASIC CONVENTIONS
314		340
…		…
383		409
384	For this to work, the OpenGL library must be loaded, a GLX context must	410	For this to work, the OpenGL library must be loaded, a GLX context must
385	have been created and be made current, and C<dlsym> must be available and	411	have been created and be made current, and C<dlsym> must be available and
386	capable of finding the function via C<RTLD_DEFAULT>.	412	capable of finding the function via C<RTLD_DEFAULT>.
387		413
		414	=head2 EVENT SYSTEM
		415
		416	OpenCL can generate a number of (potentially) asynchronous events, for
		417	example, after compiling a program, to signal a context-related error or,
		418	perhaps most important, to signal completion of queued jobs (by setting
		419	callbacks on OpenCL::Event objects).
		420
		421	To facilitate this, this module maintains an event queue - each
		422	time an asynchronous event happens, it is queued, and perl will be
		423	interrupted. This is implemented via the L<Async::Interrupt> module. In
		424	addition, this module has L<AnyEvent> support, so it can seamlessly
		425	integrate itself into many event loops.
		426
		427	Since this module is a bit hard to understand, here are some case examples:
		428
		429	=head3 Don't use callbacks.
		430
		431	When your program never uses any callbacks, then there will never be any
		432	notifications you need to take care of, and therefore no need to worry
		433	about all this.
		434
		435	You can achieve a great deal by explicitly waiting for events, or using
		436	barriers and flush calls. In many programs, there is no need at all to
		437	tinker with asynchronous events.
		438
		439	=head3 Use AnyEvent
		440
		441	This module automatically registers a watcher that invokes all outstanding
		442	event callbacks when AnyEvent is initialised (and block asynchronous
		443	interruptions). Using this mode of operations is the safest and most
		444	recommended one.
		445
		446	To use this, simply use AnyEvent and this module normally, make sure you
		447	have an event loop running:
		448
		449	use Gtk2 -init;
		450	use AnyEvent;
		451
		452	# initialise AnyEvent, by creating a watcher, or:
		453	AnyEvent::detect;
		454
		455	my $e = $queue->marker;
		456	$e->cb (sub {
		457	warn "opencl is finished\n";
		458	})
		459
		460	main Gtk2;
		461
		462	Note that this module will not initialise AnyEvent for you. Before
		463	AnyEvent is initialised, the module will asynchronously interrupt perl
		464	instead. To avoid any surprises, it's best to explicitly initialise
		465	AnyEvent.
		466
		467	You can temporarily enable asynchronous interruptions (see next paragraph)
		468	by calling C<$OpenCL::INTERRUPT->unblock> and disable them again by
		469	calling C<$OpenCL::INTERRUPT->block>.
		470
		471	=head3 Let yourself be interrupted at any time
		472
		473	This mode is the default unless AnyEvent is loaded and initialised. In
		474	this mode, OpenCL asynchronously interrupts a running perl program. The
		475	emphasis is on both I<asynchronously> and I<running> here.
		476
		477	Asynchronously means that perl might execute your callbacks at any
		478	time. For example, in the following code (I<THAT YOU SHOULD NOT COPY>),
		479	the C<until> loop following the marker call will be interrupted by the
		480	callback:
		481
		482	my $e = $queue->marker;
		483	my $flag;
		484	$e->cb (sub { $flag = 1 });
		485	1 until $flag;
		486	# $flag is now 1
		487
		488	The reason why you shouldn't blindly copy the above code is that
		489	busy waiting is a really really bad thing, and really really bad for
		490	performance.
		491
		492	While at first this asynchronous business might look exciting, it can be
		493	really hard, because you need to be prepared for the callback code to be
		494	executed at any time, which limits the amount of things the callback code
		495	can do safely.
		496
		497	This can be mitigated somewhat by using C<<
		498	$OpenCL::INTERRUPT->scope_block >> (see the L<Async::Interrupt>
		499	documentation for details).
		500
		501	The other problem is that your program must be actively I<running> to be
		502	interrupted. When you calculate stuff, your program is running. When you
		503	hang in some C functions or other block execution (by calling C<sleep>,
		504	C<select>, running an event loop and so on), your program is waiting, not
		505	running.
		506
		507	One way around that would be to attach a read watcher to your event loop,
		508	listening for events on C<< $OpenCL::INTERRUPT->pipe_fileno >>, using a
		509	dummy callback (C<sub { }>) to temporarily execute some perl code.
		510
		511	That is then awfully close to using the built-in AnyEvent support above,
		512	though, so consider that one instead.
		513
		514	=head3 Be creative
		515
		516	OpenCL exports the L<Async::Interrupt> object it uses in the global
		517	variable C<$OpenCL::INTERRUPT>. You can configure it in any way you like.
		518
		519	So if you want to feel like a real pro, err, wait, if you feel no risk
		520	menas no fun, you can experiment by implementing your own mode of
		521	operations.
		522
		523	=cut
		524
		525	package OpenCL;
		526
		527	use common::sense;
		528	use Carp ();
		529	use Async::Interrupt ();
		530
		531	our $POLL_FUNC; # set by XS
		532
		533	BEGIN {
		534	our $VERSION = '0.98';
		535
		536	require XSLoader;
		537	XSLoader::load (__PACKAGE__, $VERSION);
		538
		539	@OpenCL::Platform::ISA =
		540	@OpenCL::Device::ISA =
		541	@OpenCL::Context::ISA =
		542	@OpenCL::Queue::ISA =
		543	@OpenCL::Memory::ISA =
		544	@OpenCL::Sampler::ISA =
		545	@OpenCL::Program::ISA =
		546	@OpenCL::Kernel::ISA =
		547	@OpenCL::Event::ISA = OpenCL::Object::;
		548
		549	@OpenCL::Buffer::ISA =
		550	@OpenCL::Image::ISA = OpenCL::Memory::;
		551
		552	@OpenCL::BufferObj::ISA = OpenCL::Buffer::;
		553
		554	@OpenCL::Image2D::ISA =
		555	@OpenCL::Image3D::ISA =
		556	@OpenCL::Image2DArray::ISA =
		557	@OpenCL::Image1D::ISA =
		558	@OpenCL::Image1DArray::ISA =
		559	@OpenCL::Image1DBuffer::ISA = OpenCL::Image::;
		560
		561	@OpenCL::UserEvent::ISA = OpenCL::Event::;
		562	}
		563
388	=head2 THE OpenCL PACKAGE	564	=head2 THE OpenCL PACKAGE
389		565
390	=over 4	566	=over 4
391		567
392	=item $int = OpenCL::errno	568	=item $int = OpenCL::errno
393		569
394	The last error returned by a function - it's only valid after an error occured	570	The last error returned by a function - it's only valid after an error occured
395	and before calling another OpenCL function.	571	and before calling another OpenCL function.
396		572
397	=item $str = OpenCL::err2str $errval	573	=item $str = OpenCL::err2str [$errval]
398		574
399	Comverts an error value into a human readable string.	575	Converts an error value into a human readable string. IF no error value is
		576	given, then the last error will be used (as returned by OpenCL::errno).
400		577
401	=item $str = OpenCL::enum2str $enum	578	=item $str = OpenCL::enum2str $enum
402		579
403	Converts most enum values (of parameter names, image format constants,	580	Converts most enum values (of parameter names, image format constants,
404	object types, addressing and filter modes, command types etc.) into a	581	object types, addressing and filter modes, command types etc.) into a
…		…
410		587
411	Returns all available OpenCL::Platform objects.	588	Returns all available OpenCL::Platform objects.
412		589
413	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clGetPlatformIDs.html>	590	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clGetPlatformIDs.html>
414		591
415	=item $ctx = OpenCL::context_from_type $properties, $type = OpenCL::DEVICE_TYPE_DEFAULT, $notify = undef	592	=item $ctx = OpenCL::context_from_type $properties, $type = OpenCL::DEVICE_TYPE_DEFAULT, $callback->($err, $pvt) = $print_stderr
416		593
417	Tries to create a context from a default device and platform - never worked for me.	594	Tries to create a context from a default device and platform type - never worked for me.
418		595
419	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clCreateContextFromType.html>	596	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clCreateContextFromType.html>
420		597
		598	=item $ctx = OpenCL::context $properties, \@devices, $callback->($err, $pvt) = $print_stderr)
		599
		600	Create a new OpenCL::Context object using the given device object(s). This
		601	function isn't implemented yet, use C<< $platform->context >> instead.
		602
		603	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clCreateContext.html>
		604
421	=item OpenCL::wait_for_events $wait_events...	605	=item OpenCL::wait_for_events $wait_events...
422		606
423	Waits for all events to complete.	607	Waits for all events to complete.
424		608
425	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clWaitForEvents.html>	609	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clWaitForEvents.html>
426		610
		611	=item OpenCL::poll
		612
		613	Checks if there are any outstanding events (see L<EVENT SYSTEM>) and
		614	invokes their callbacks.
		615
		616	=item $OpenCL::INTERRUPT
		617
		618	The L<Async::Interrupt> object used to signal asynchronous events (see
		619	L<EVENT SYSTEM>).
		620
		621	=cut
		622
		623	our $INTERRUPT = new Async::Interrupt c_cb => [$POLL_FUNC, 0];
		624
		625	&_eq_initialise ($INTERRUPT->signal_func);
		626
		627	=item $OpenCL::WATCHER
		628
		629	The L<AnyEvent> watcher object used to watch for asynchronous events (see
		630	L<EVENT SYSTEM>). This variable is C<undef> until L<AnyEvent> has been
		631	loaded I<and> initialised (e.g. by calling C<AnyEvent::detect>).
		632
		633	=cut
		634
		635	our $WATCHER;
		636
		637	sub _init_anyevent {
		638	$INTERRUPT->block;
		639	$WATCHER = AE::io ($INTERRUPT->pipe_fileno, 0, sub { $INTERRUPT->handle });
		640	}
		641
		642	if (defined $AnyEvent::MODEL) {
		643	_init_anyevent;
		644	} else {
		645	push @AnyEvent::post_detect, \&_init_anyevent;
		646	}
		647
427	=back	648	=back
428		649
		650	=head2 THE OpenCL::Object CLASS
		651
		652	This is the base class for all objects in the OpenCL module. The only
		653	method it implements is the C<id> method, which is only useful if you want
		654	to interface to OpenCL on the C level.
		655
		656	=over 4
		657
		658	=item $iv = $obj->id
		659
		660	OpenCL objects are represented by pointers or integers on the C level. If
		661	you want to interface to an OpenCL object directly on the C level, then
		662	you need this value, which is returned by this method. You should use an
		663	C<IV> type in your code and cast that to the correct type.
		664
		665	=cut
		666
		667	sub OpenCL::Object::id {
		668	ref $_[0] eq "SCALAR"
		669	? ${ $_[0] }
		670	: $_[0][0]
		671	}
		672
		673	=back
		674
429	=head2 THE OpenCL::Platform CLASS	675	=head2 THE OpenCL::Platform CLASS
430		676
431	=over 4	677	=over 4
432		678
433	=item @devices = $platform->devices ($type = OpenCL::DEVICE_TYPE_ALL)	679	=item @devices = $platform->devices ($type = OpenCL::DEVICE_TYPE_ALL)
434		680
435	Returns a list of matching OpenCL::Device objects.	681	Returns a list of matching OpenCL::Device objects.
436		682
437	=item $ctx = $platform->context_from_type ($properties, $type = OpenCL::DEVICE_TYPE_DEFAULT, $notify = undef)	683	=item $ctx = $platform->context_from_type ($properties, $type = OpenCL::DEVICE_TYPE_DEFAULT, $callback->($err, $pvt) = $print_stderr)
438		684
439	Tries to create a context. Never worked for me, and you need devices explicitly anyway.	685	Tries to create a context. Never worked for me, and you need devices explicitly anyway.
440		686
441	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clCreateContextFromType.html>	687	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clCreateContextFromType.html>
442		688
443	=item $ctx = $platform->context ($properties = undef, @$devices, $notify = undef)	689	=item $ctx = $platform->context ($properties, \@devices, $callback->($err, $pvt) = $print_stderr)
444		690
445	Create a new OpenCL::Context object using the given device object(s)- a	691	Create a new OpenCL::Context object using the given device object(s)- a
446	CL_CONTEXT_PLATFORM property is supplied automatically.	692	CL_CONTEXT_PLATFORM property is supplied automatically.
447		693
448	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clCreateContext.html>	694	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clCreateContext.html>
…		…
773		1019
774	=head2 THE OpenCL::Context CLASS	1020	=head2 THE OpenCL::Context CLASS
775		1021
776	=over 4	1022	=over 4
777		1023
		1024	=item $prog = $ctx->build_program ($program, $options = "")
		1025
		1026	This convenience function tries to build the program on all devices in
		1027	the context. If the build fails, then the function will C<croak> with the
		1028	build log. Otherwise ti returns the program object.
		1029
		1030	The C<$program> can either be a C<OpenCL::Program> object or a string
		1031	containing the program. In the latter case, a program objetc will be
		1032	created automatically.
		1033
		1034	=cut
		1035
		1036	sub OpenCL::Context::build_program {
		1037	my ($self, $prog, $options) = @_;
		1038
		1039	$prog = $self->program_with_source ($prog)
		1040	unless ref $prog;
		1041
		1042	eval { $prog->build (undef, $options); 1 }
		1043	or errno == BUILD_PROGRAM_FAILURE
		1044	or errno == INVALID_BINARY # workaround nvidia bug
		1045	or Carp::croak "OpenCL::Context->build_program: " . err2str;
		1046
		1047	# we check status for all devices
		1048	for my $dev ($self->devices) {
		1049	$prog->build_status ($dev) == BUILD_SUCCESS
		1050	or Carp::croak "Building OpenCL program for device '" . $dev->name . "' failed:\n"
		1051	. $prog->build_log ($dev);
		1052	}
		1053
		1054	$prog
		1055	}
		1056
778	=item $queue = $ctx->queue ($device, $properties)	1057	=item $queue = $ctx->queue ($device, $properties)
779		1058
780	Create a new OpenCL::Queue object from the context and the given device.	1059	Create a new OpenCL::Queue object from the context and the given device.
781		1060
782	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clCreateCommandQueue.html>	1061	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clCreateCommandQueue.html>
…		…
801	=item $buf = $ctx->buffer_sv ($flags, $data)	1080	=item $buf = $ctx->buffer_sv ($flags, $data)
802		1081
803	Creates a new OpenCL::Buffer (actually OpenCL::BufferObj) object and	1082	Creates a new OpenCL::Buffer (actually OpenCL::BufferObj) object and
804	initialise it with the given data values.	1083	initialise it with the given data values.
805		1084
806	=item $img = $ctx->image ($self, $flags, $channel_order, $channel_type, $type, $width, $height, $depth, $array_size = 0, $row_pitch = 0, $slice_pitch = 0, $num_mip_level = 0, $num_samples = 0, $*data = &PL_sv_undef)	1085	=item $img = $ctx->image ($self, $flags, $channel_order, $channel_type, $type, $width, $height, $depth = 0, $array_size = 0, $row_pitch = 0, $slice_pitch = 0, $num_mip_level = 0, $num_samples = 0, $*data = &PL_sv_undef)
807		1086
808	Creates a new OpenCL::Image object and optionally initialises it with	1087	Creates a new OpenCL::Image object and optionally initialises it with
809	the given data values.	1088	the given data values.
810		1089
811	L<http://www.khronos.org/registry/cl/sdk/1.2/docs/man/xhtml/clCreateImage.html>	1090	L<http://www.khronos.org/registry/cl/sdk/1.2/docs/man/xhtml/clCreateImage.html>
…		…
907	=back	1186	=back
908		1187
909	=head2 THE OpenCL::Queue CLASS	1188	=head2 THE OpenCL::Queue CLASS
910		1189
911	An OpenCL::Queue represents an execution queue for OpenCL. You execute	1190	An OpenCL::Queue represents an execution queue for OpenCL. You execute
912	requests by calling their respective C<enqueue_xxx> method and waitinf for	1191	requests by calling their respective method and waiting for it to complete
913	it to complete in some way.	1192	in some way.
914		1193
915	All the enqueue methods return an event object that can be used to wait	1194	Most methods that enqueue some request return an event object that can
916	for completion, unless the method is called in void context, in which case	1195	be used to wait for completion (optionally using a callback), unless
917	no event object is created.	1196	the method is called in void context, in which case no event object is
		1197	created.
918		1198
919	They also allow you to specify any number of other event objects that this	1199	They also allow you to specify any number of other event objects that this
920	request has to wait for before it starts executing, by simply passing the	1200	request has to wait for before it starts executing, by simply passing the
921	event objects as extra parameters to the enqueue methods. To simplify	1201	event objects as extra parameters to the enqueue methods. To simplify
922	program design, this module ignores any C<undef> values in the list of	1202	program design, this module ignores any C<undef> values in the list of
923	events. This makes it possible to code operations such as this, without	1203	events. This makes it possible to code operations such as this, without
924	having to put a valid event object into C<$event> first:	1204	having to put a valid event object into C<$event> first:
925		1205
926	$event = $queue->enqueue_xxx (..., $event);	1206	$event = $queue->xxx (..., $event);
927		1207
928	Queues execute in-order by default, without any parallelism, so in most	1208	Queues execute in-order by default, without any parallelism, so in most
929	cases (i.e. you use only one queue) it's not necessary to wait for or	1209	cases (i.e. you use only one queue) it's not necessary to wait for or
930	create event objects, althoguh an our of order queue is often a bit	1210	create event objects, althoguh an our of order queue is often a bit
931	faster.	1211	faster.
932		1212
933	=over 4	1213	=over 4
934		1214
935	=item $ev = $queue->enqueue_read_buffer ($buffer, $blocking, $offset, $len, $data, $wait_events...)	1215	=item $ev = $queue->read_buffer ($buffer, $blocking, $offset, $len, $data, $wait_events...)
936		1216
937	Reads data from buffer into the given string.	1217	Reads data from buffer into the given string.
938		1218
939	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueReadBuffer.html>	1219	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueReadBuffer.html>
940		1220
941	=item $ev = $queue->enqueue_write_buffer ($buffer, $blocking, $offset, $data, $wait_events...)	1221	=item $ev = $queue->write_buffer ($buffer, $blocking, $offset, $data, $wait_events...)
942		1222
943	Writes data to buffer from the given string.	1223	Writes data to buffer from the given string.
944		1224
945	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueWriteBuffer.html>	1225	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueWriteBuffer.html>
946		1226
947	=item $ev = $queue->enqueue_copy_buffer ($src, $dst, $src_offset, $dst_offset, $len, $wait_events...)	1227	=item $ev = $queue->copy_buffer ($src, $dst, $src_offset, $dst_offset, $len, $wait_events...)
948		1228
949	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueCopyBuffer.html>	1229	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueCopyBuffer.html>
950		1230
951	=item $ev = $queue->enqueue_read_buffer_rect (OpenCL::Memory buf, cl_bool blocking, $buf_x, $buf_y, $buf_z, $host_x, $host_y, $host_z, $width, $height, $depth, $buf_row_pitch, $buf_slice_pitch, $host_row_pitch, $host_slice_pitch, $data, $wait_events...)	1231	=item $ev = $queue->read_buffer_rect (OpenCL::Memory buf, cl_bool blocking, $buf_x, $buf_y, $buf_z, $host_x, $host_y, $host_z, $width, $height, $depth, $buf_row_pitch, $buf_slice_pitch, $host_row_pitch, $host_slice_pitch, $data, $wait_events...)
952		1232
953	http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueReadBufferRect.html	1233	http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueReadBufferRect.html
954		1234
955	=item $ev = $queue->enqueue_write_buffer_rect (OpenCL::Memory buf, cl_bool blocking, $buf_x, $buf_y, $buf_z, $host_x, $host_y, $host_z, $width, $height, $depth, $buf_row_pitch, $buf_slice_pitch, $host_row_pitch, $host_slice_pitch, $data, $wait_events...)	1235	=item $ev = $queue->write_buffer_rect (OpenCL::Memory buf, cl_bool blocking, $buf_x, $buf_y, $buf_z, $host_x, $host_y, $host_z, $width, $height, $depth, $buf_row_pitch, $buf_slice_pitch, $host_row_pitch, $host_slice_pitch, $data, $wait_events...)
956		1236
957	http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueWriteBufferRect.html	1237	http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueWriteBufferRect.html
958		1238
959	=item $ev = $queue->enqueue_read_image ($src, $blocking, $x, $y, $z, $width, $height, $depth, $row_pitch, $slice_pitch, $data, $wait_events...)
960
961	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueCopyBufferRect.html>
962
963	=item $ev = $queue->enqueue_copy_buffer_to_image ($src_buffer, $dst_image, $src_offset, $dst_x, $dst_y, $dst_z, $width, $height, $depth, $wait_events...)	1239	=item $ev = $queue->copy_buffer_to_image ($src_buffer, $dst_image, $src_offset, $dst_x, $dst_y, $dst_z, $width, $height, $depth, $wait_events...)
		1240
		1241	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueCopyBufferToImage.html>
		1242
		1243	=item $ev = $queue->read_image ($src, $blocking, $x, $y, $z, $width, $height, $depth, $row_pitch, $slice_pitch, $data, $wait_events...)
		1244
		1245	C<$row_pitch> (and C<$slice_pitch>) can be C<0>, in which case the OpenCL
		1246	module uses the image width (and height) to supply default values.
964		1247
965	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueReadImage.html>	1248	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueReadImage.html>
966		1249
967	=item $ev = $queue->enqueue_write_image ($src, $blocking, $x, $y, $z, $width, $height, $depth, $row_pitch, $slice_pitch, $data, $wait_events...)	1250	=item $ev = $queue->write_image ($src, $blocking, $x, $y, $z, $width, $height, $depth, $row_pitch, $slice_pitch, $data, $wait_events...)
968		1251
		1252	C<$row_pitch> (and C<$slice_pitch>) can be C<0>, in which case the OpenCL
		1253	module uses the image width (and height) to supply default values.
969	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueWriteImage.html>	1254	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueWriteImage.html>
970		1255
971	=item $ev = $queue->enqueue_copy_image ($src_image, $dst_image, $src_x, $src_y, $src_z, $dst_x, $dst_y, $dst_z, $width, $height, $depth, $wait_events...)	1256	=item $ev = $queue->copy_image ($src_image, $dst_image, $src_x, $src_y, $src_z, $dst_x, $dst_y, $dst_z, $width, $height, $depth, $wait_events...)
972		1257
973	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueCopyImage.html>	1258	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueCopyImage.html>
974		1259
975	=item $ev = $queue->enqueue_copy_image_to_buffer ($src_image, $dst_image, $src_x, $src_y, $src_z, $width, $height, $depth, $dst_offset, $wait_events...)	1260	=item $ev = $queue->copy_image_to_buffer ($src_image, $dst_image, $src_x, $src_y, $src_z, $width, $height, $depth, $dst_offset, $wait_events...)
976		1261
977	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueCopyImageToBuffer.html>	1262	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueCopyImageToBuffer.html>
978		1263
979	=item $ev = $queue->enqueue_copy_buffer_rect ($src, $dst, $src_x, $src_y, $src_z, $dst_x, $dst_y, $dst_z, $width, $height, $depth, $src_row_pitch, $src_slice_pitch, $dst_row_pitch, $dst_slice_pitch, $wait_event...)	1264	=item $ev = $queue->copy_buffer_rect ($src, $dst, $src_x, $src_y, $src_z, $dst_x, $dst_y, $dst_z, $width, $height, $depth, $src_row_pitch, $src_slice_pitch, $dst_row_pitch, $dst_slice_pitch, $wait_event...)
980		1265
981	Yeah.	1266	Yeah.
982		1267
983	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueCopyBufferToImage.html>.	1268	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueCopyBufferToImage.html>.
984		1269
		1270	=item $ev = $queue->fill_buffer ($mem, $pattern, $offset, $size, ...)
		1271
		1272	Fills the given buffer object with repeated applications of C<$pattern>,
		1273	starting at C<$offset> for C<$size> octets.
		1274
		1275	L<http://www.khronos.org/registry/cl/sdk/1.2/docs/man/xhtml/clEnqueueFillBuffer.html>
		1276
		1277	=item $ev = $queue->fill_image ($img, $r, $g, $b, $a, $x, $y, $z, $width, $height, $depth, ...)
		1278
		1279	Fills the given image area with the given rgba colour components. The
		1280	components are normally floating point values between C<0> and C<1>,
		1281	except when the image channel data type is a signe dor unsigned
		1282	unnormalised format, in which case the range is determined by the format.
		1283
		1284	L<http://www.khronos.org/registry/cl/sdk/1.2/docs/man/xhtml/clEnqueueFillImage.html>
		1285
985	=item $ev = $queue->enqueue_task ($kernel, $wait_events...)	1286	=item $ev = $queue->task ($kernel, $wait_events...)
986		1287
987	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueTask.html>	1288	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueTask.html>
988		1289
989	=item $ev = $queue->enqueue_nd_range_kernel ($kernel, @$global_work_offset, @$global_work_size, @$local_work_size, $wait_events...)	1290	=item $ev = $queue->nd_range_kernel ($kernel, \@global_work_offset, \@global_work_size, \@local_work_size, $wait_events...)
990		1291
991	Enqueues a kernel execution.	1292	Enqueues a kernel execution.
992		1293
993	@$global_work_size must be specified as a reference to an array of	1294	\@global_work_size must be specified as a reference to an array of
994	integers specifying the work sizes (element counts).	1295	integers specifying the work sizes (element counts).
995		1296
996	@$global_work_offset must be either C<undef> (in which case all offsets	1297	\@global_work_offset must be either C<undef> (in which case all offsets
997	are C<0>), or a reference to an array of work offsets, with the same number	1298	are C<0>), or a reference to an array of work offsets, with the same number
998	of elements as @$global_work_size.	1299	of elements as \@global_work_size.
999		1300
1000	@$local_work_size must be either C<undef> (in which case the	1301	\@local_work_size must be either C<undef> (in which case the
1001	implementation is supposed to choose good local work sizes), or a	1302	implementation is supposed to choose good local work sizes), or a
1002	reference to an array of local work sizes, with the same number of	1303	reference to an array of local work sizes, with the same number of
1003	elements as @$global_work_size.	1304	elements as \@global_work_size.
1004		1305
1005	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueNDRangeKernel.html>	1306	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueNDRangeKernel.html>
1006		1307
1007	=item $ev = $queue->enqueue_acquire_gl_objects ([object, ...], $wait_events...)	1308	=item $ev = $queue->acquire_gl_objects ([object, ...], $wait_events...)
1008		1309
1009	Enqueues a list (an array-ref of OpenCL::Memory objects) to be acquired	1310	Enqueues a list (an array-ref of OpenCL::Memory objects) to be acquired
1010	for subsequent OpenCL usage.	1311	for subsequent OpenCL usage.
1011		1312
1012	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueAcquireGLObjects.html>	1313	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueAcquireGLObjects.html>
1013		1314
1014	=item $ev = $queue->enqueue_release_gl_objects ([object, ...], $wait_events...)	1315	=item $ev = $queue->release_gl_objects ([object, ...], $wait_events...)
1015		1316
1016	Enqueues a list (an array-ref of OpenCL::Memory objects) to be released	1317	Enqueues a list (an array-ref of OpenCL::Memory objects) to be released
1017	for subsequent OpenGL usage.	1318	for subsequent OpenGL usage.
1018		1319
1019	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueReleaseGLObjects.html>	1320	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueReleaseGLObjects.html>
1020		1321
1021	=item $ev = $queue->enqueue_wait_for_events ($wait_events...)	1322	=item $ev = $queue->wait_for_events ($wait_events...)
1022		1323
1023	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueWaitForEvents.html>	1324	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clEnqueueWaitForEvents.html>
1024		1325
1025	=item $ev = $queue->enqueue_marker ($wait_events...)	1326	=item $ev = $queue->marker ($wait_events...)
1026		1327
1027	L<http://www.khronos.org/registry/cl/sdk/1.2/docs/man/xhtml/clEnqueueMarkerWithWaitList.html>	1328	L<http://www.khronos.org/registry/cl/sdk/1.2/docs/man/xhtml/clEnqueueMarkerWithWaitList.html>
1028		1329
1029	=item $ev = $queue->enqueue_barrier ($wait_events...)	1330	=item $ev = $queue->barrier ($wait_events...)
1030		1331
1031	L<http://www.khronos.org/registry/cl/sdk/1.2/docs/man/xhtml/clEnqueueBarrierWithWaitList.html>	1332	L<http://www.khronos.org/registry/cl/sdk/1.2/docs/man/xhtml/clEnqueueBarrierWithWaitList.html>
1032		1333
1033	=item $queue->flush	1334	=item $queue->flush
1034		1335
…		…
1157	OpenCL::Image1DArray, OpenCL::Image1DBuffer, OpenCL::Image2D,	1458	OpenCL::Image1DArray, OpenCL::Image1DBuffer, OpenCL::Image2D,
1158	OpenCL::Image2DArray and OpenCL::Image3D.	1459	OpenCL::Image2DArray and OpenCL::Image3D.
1159		1460
1160	=over 4	1461	=over 4
1161		1462
1162	=item $packed_value = $ev->image_info ($name)	1463	=item $packed_value = $image->image_info ($name)
1163		1464
1164	See C<< $platform->info >> for details.	1465	See C<< $platform->info >> for details.
1165		1466
1166	The reason this method is not called C<info> is that there already is an	1467	The reason this method is not called C<info> is that there already is an
1167	C<< ->info >> method inherited from C<OpenCL::Memory>.	1468	C<< ->info >> method inherited from C<OpenCL::Memory>.
1168		1469
1169	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clGetImageInfo.html>	1470	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clGetImageInfo.html>
1170		1471
		1472	=item ($channel_order, $channel_data_type) = $image->format
		1473
		1474	Returns the channel order and type used to create the image by calling
		1475	C<clGetImageInfo> with C<CL_IMAGE_FORMAT>.
		1476
1171	=for gengetinfo begin image	1477	=for gengetinfo begin image
1172		1478
1173	=item $int = $image->element_size	1479	=item $int = $image->element_size
1174		1480
1175	Calls C<clGetImageInfo> with C<CL_IMAGE_ELEMENT_SIZE> and returns the result.	1481	Calls C<clGetImageInfo> with C<CL_IMAGE_ELEMENT_SIZE> and returns the result.
…		…
1248		1554
1249	=head2 THE OpenCL::Program CLASS	1555	=head2 THE OpenCL::Program CLASS
1250		1556
1251	=over 4	1557	=over 4
1252		1558
1253	=item $program->build ($device, $options = "")	1559	=item $program->build (\@devices = undef, $options = "", $cb->($program) = undef)
1254		1560
1255	Tries to build the program with the givne options.	1561	Tries to build the program with the given options. See also the
		1562	C<$ctx->build> convenience function.
		1563
		1564	If a callback is specified, then it will be called when compilation is
		1565	finished. Note that many OpenCL implementations block your program while
		1566	compiling whether you use a callback or not. See C<build_async> if you
		1567	want to make sure the build is done in the background.
		1568
		1569	Note that some OpenCL implementations act up badly, and don't call the
		1570	callback in some error cases (but call it in others). This implementation
		1571	assumes the callback will always be called, and leaks memory if this is
		1572	not so. So best make sure you don't pass in invalid values.
		1573
		1574	Some implementations fail with C<OpenCL::INVALID_BINARY> when the
		1575	compilation state is successful but some later stage fails.
1256		1576
1257	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clBuildProgram.html>	1577	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clBuildProgram.html>
		1578
		1579	=item $program->build_async (\@devices = undef, $options = "", $cb->($program) = undef)
		1580
		1581	Similar to C<< ->build >>, except it starts a thread, and never fails (you
		1582	need to check the compilation status form the callback, or by polling).
1258		1583
1259	=item $packed_value = $program->build_info ($device, $name)	1584	=item $packed_value = $program->build_info ($device, $name)
1260		1585
1261	Similar to C<< $platform->info >>, but returns build info for a previous	1586	Similar to C<< $platform->info >>, but returns build info for a previous
1262	build attempt for the given device.	1587	build attempt for the given device.
…		…
1404		1729
1405	Calls C<clGetKernelWorkGroupInfo> with C<CL_KERNEL_PRIVATE_MEM_SIZE> and returns the result.	1730	Calls C<clGetKernelWorkGroupInfo> with C<CL_KERNEL_PRIVATE_MEM_SIZE> and returns the result.
1406		1731
1407	=for gengetinfo end kernel_work_group	1732	=for gengetinfo end kernel_work_group
1408		1733
		1734	=item $kernel->setf ($format, ...)
		1735
		1736	Sets the arguments of a kernel. Since OpenCL 1.1 doesn't have a generic
		1737	way to set arguments (and with OpenCL 1.2 it might be rather slow), you
		1738	need to specify a format argument, much as with C<printf>, to tell OpenCL
		1739	what type of argument it is.
		1740
		1741	The format arguments are single letters:
		1742
		1743	c char
		1744	C unsigned char
		1745	s short
		1746	S unsigned short
		1747	i int
		1748	I unsigned int
		1749	l long
		1750	L unsigned long
		1751
		1752	h half float (0..65535)
		1753	f float
		1754	d double
		1755
		1756	z local (octet size)
		1757
		1758	m memory object (buffer or image)
		1759	a sampler
		1760	e event
		1761
		1762	Space characters in the format string are ignored.
		1763
		1764	Example: set the arguments for a kernel that expects an int, two floats, a buffer and an image.
		1765
		1766	$kernel->setf ("i ff mm", 5, 0.5, 3, $buffer, $image);
		1767
1409	=item $kernel->set_TYPE ($index, $value)	1768	=item $kernel->set_TYPE ($index, $value)
1410		1769
		1770	=item $kernel->set_char ($index, $value)
		1771
		1772	=item $kernel->set_uchar ($index, $value)
		1773
		1774	=item $kernel->set_short ($index, $value)
		1775
		1776	=item $kernel->set_ushort ($index, $value)
		1777
		1778	=item $kernel->set_int ($index, $value)
		1779
		1780	=item $kernel->set_uint ($index, $value)
		1781
		1782	=item $kernel->set_long ($index, $value)
		1783
		1784	=item $kernel->set_ulong ($index, $value)
		1785
		1786	=item $kernel->set_half ($index, $value)
		1787
		1788	=item $kernel->set_float ($index, $value)
		1789
		1790	=item $kernel->set_double ($index, $value)
		1791
		1792	=item $kernel->set_memory ($index, $value)
		1793
		1794	=item $kernel->set_buffer ($index, $value)
		1795
		1796	=item $kernel->set_image ($index, $value)
		1797
		1798	=item $kernel->set_sampler ($index, $value)
		1799
		1800	=item $kernel->set_local ($index, $value)
		1801
		1802	=item $kernel->set_event ($index, $value)
		1803
1411	This is a family of methods to set the kernel argument with the number C<$index> to the give C<$value>.	1804	This is a family of methods to set the kernel argument with the number
1412		1805	C<$index> to the give C<$value>.
1413	TYPE is one of C<char>, C<uchar>, C<short>, C<ushort>, C<int>, C<uint>,
1414	C<long>, C<ulong>, C<half>, C<float>, C<double>, C<memory>, C<buffer>,
1415	C<image2d>, C<image3d>, C<sampler>, C<local> or C<event>.
1416		1806
1417	Chars and integers (including the half type) are specified as integers,	1807	Chars and integers (including the half type) are specified as integers,
1418	float and double as floating point values, memory/buffer/image2d/image3d	1808	float and double as floating point values, memory/buffer/image must be
1419	must be an object of that type or C<undef>, local-memory arguments are	1809	an object of that type or C<undef>, local-memory arguments are set by
1420	set by specifying the size, and sampler and event must be objects of that	1810	specifying the size, and sampler and event must be objects of that type.
1421	type.	1811
		1812	Note that C<set_memory> works for all memory objects (all types of buffers
		1813	and images) - the main purpose of the more specific C<set_TYPE> functions
		1814	is type checking.
1422		1815
1423	Setting an argument for a kernel does NOT keep a reference to the object -	1816	Setting an argument for a kernel does NOT keep a reference to the object -
1424	for example, if you set an argument to some image object, free the image,	1817	for example, if you set an argument to some image object, free the image,
1425	and call the kernel, you will run into undefined behaviour.	1818	and call the kernel, you will run into undefined behaviour.
1426		1819
…		…
1439		1832
1440	Waits for the event to complete.	1833	Waits for the event to complete.
1441		1834
1442	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clWaitForEvents.html>	1835	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clWaitForEvents.html>
1443		1836
		1837	=item $ev->cb ($exec_callback_type, $callback->($event, $event_command_exec_status))
		1838
		1839	Adds a callback to the callback stack for the given event type. There is
		1840	no way to remove a callback again.
		1841
		1842	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clSetEventCallback.html>
		1843
1444	=item $packed_value = $ev->info ($name)	1844	=item $packed_value = $ev->info ($name)
1445		1845
1446	See C<< $platform->info >> for details.	1846	See C<< $platform->info >> for details.
1447		1847
1448	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clGetEventInfo.html>	1848	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clGetEventInfo.html>
…		…
1508		1908
1509	=over 4	1909	=over 4
1510		1910
1511	=item $ev->set_status ($execution_status)	1911	=item $ev->set_status ($execution_status)
1512		1912
		1913	Sets the execution status of the user event. Can only be called once,
		1914	either with OpenCL::COMPLETE or a negative number as status.
		1915
1513	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clSetUserEventStatus.html>	1916	L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clSetUserEventStatus.html>
1514		1917
1515	=back	1918	=back
1516		1919
1517	=cut	1920	=cut
1518
1519	package OpenCL;
1520
1521	use common::sense;
1522
1523	BEGIN {
1524	our $VERSION = '0.96';
1525
1526	require XSLoader;
1527	XSLoader::load (__PACKAGE__, $VERSION);
1528
1529	@OpenCL::Buffer::ISA =
1530	@OpenCL::Image::ISA = OpenCL::Memory::;
1531
1532	@OpenCL::BufferObj::ISA = OpenCL::Buffer::;
1533
1534	@OpenCL::Image2D::ISA =
1535	@OpenCL::Image3D::ISA =
1536	@OpenCL::Image2DArray::ISA =
1537	@OpenCL::Image1D::ISA =
1538	@OpenCL::Image1DArray::ISA =
1539	@OpenCL::Image1DBuffer::ISA = OpenCL::Image::;
1540
1541	@OpenCL::UserEvent::ISA = OpenCL::Event::;
1542	}
1543		1921
1544	1;	1922	1;
1545		1923
1546	=head1 AUTHOR	1924	=head1 AUTHOR
1547		1925

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Comparing OpenCL/OpenCL.pm (file contents): Revision 1.50 by root, Tue Apr 24 13:30:49 2012 UTC vs. Revision 1.65 by root, Mon Apr 30 23:35:16 2012 UTC

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Comparing OpenCL/OpenCL.pm (file contents):
Revision 1.50 by root, Tue Apr 24 13:30:49 2012 UTC vs.
Revision 1.65 by root, Mon Apr 30 23:35:16 2012 UTC