--- OpenCL/OpenCL.pm	2011/11/17 01:36:52	1.9
+++ OpenCL/OpenCL.pm	2011/11/17 02:56:47	1.12
@@ -20,14 +20,14 @@
 Each platform gives you access to a number of OpenCL::Device objects, e.g.
 your graphics card.
 
-From a platform and some devices, you create an OpenCL::Context, which is
+From a platform and some device(s), you create an OpenCL::Context, which is
 a very central object in OpenCL: Once you have a context you can create
 most other objects:
 
-OpenCL::Program objects, which store source code and, after building
-("compiling and linking"), also binary programs. For each kernel function
-in a program you can then create an OpenCL::Kernel object which represents
-basically a function call with argument values.
+OpenCL::Program objects, which store source code and, after building for a
+specific device ("compiling and linking"), also binary programs. For each
+kernel function in a program you can then create an OpenCL::Kernel object
+which represents basically a function call with argument values.
 
 OpenCL::Memory objects of various flavours: OpenCL::Buffers objects (flat
 memory areas, think array) and OpenCL::Image objects (think 2d or 3d
@@ -56,51 +56,65 @@
 
 =head1 BASIC WORKFLOW
 
-To get something done, you basically have to do this once:
+To get something done, you basically have to do this once (refer to the
+examples below for actual code, this is just a high-level description):
 
-Find some platform (e.g. the first one) and some device (e.g. the first
-device you can find), and create a context from those.
+Find some platform (e.g. the first one) and some device(s) (e.g. the first
+device of the platform), and create a context from those.
 
-Create a command queue from your context, and program objects from your
-OpenCL source code, build the programs.
+Create program objects from your OpenCL source code, then build (compile)
+the programs for each device you want to run them on.
 
-Create kernel objects for all kernels you want to use.
+Create kernel objects for all kernels you want to use (surprisingly, these
+are not device-specific).
 
-Then, to execute stuff, you repeat this:
+Then, to execute stuff, you repeat these steps, possibly resuing or
+sharing some buffers:
 
-Create some input and output buffers from your context. Initialise the
-input buffers with data. Set these as arguments to your kernel.
+Create some input and output buffers from your context. Set these as
+arguments to your kernel.
+
+Enqueue buffer writes to initialise your input buffers (when not
+initialised at creation time).
 
 Enqueue the kernel execution.
 
 Enqueue buffer reads for your output buffer to read results.
 
-The next section shows how this can be done.
-
 =head1 EXAMPLES
 
 =head2 Enumerate all devices and get contexts for them.
 
+Best run this once to get a feel for the platforms and devices in your
+system.
+
    for my $platform (OpenCL::platforms) {
-      warn $platform->info (OpenCL::PLATFORM_NAME);
-      warn $platform->info (OpenCL::PLATFORM_EXTENSIONS);
+      printf "platform: %s\n", $platform->info (OpenCL::PLATFORM_NAME);
+      printf "extensions: %s\n", $platform->info (OpenCL::PLATFORM_EXTENSIONS);
       for my $device ($platform->devices) {
-         warn $device->info (OpenCL::DEVICE_NAME);
-         my $ctx = $device->context_simple;
+         printf "+ device: %s\n", $device->info (OpenCL::DEVICE_NAME);
+         my $ctx = $device->context;
          # do stuff
       }
    }
 
 =head2 Get a useful context and a command queue.
 
-   my $dev = ((OpenCL::platforms)[0]->devices)[0];
-   my $ctx = $dev->context_simple;
-   my $queue = $ctx->queue ($dev);
+This is a useful boilerplate for any OpenCL program that only wants to use
+one device,
+
+   my ($platform) = OpenCL::platforms; # find first platform
+   my ($dev) = $platform->devices;     # find first device of platform
+   my $ctx = $platform->context (undef, [$dev]); # create context out of those
+   my $queue = $ctx->queue ($dev);     # create a command queue for the device
 
 =head2 Print all supported image formats of a context.
 
+Best run this once for your context, to see whats available and how to
+gather information.
+
    for my $type (OpenCL::MEM_OBJECT_IMAGE2D, OpenCL::MEM_OBJECT_IMAGE3D) {
-      say "supported image formats for ", OpenCL::enum2str $type;
+      print "supported image formats for ", OpenCL::enum2str $type, "\n";
       
       for my $f ($ctx->supported_image_formats (0, $type)) {
          printf "  %-10s %-20s\n", OpenCL::enum2str $f->[0], OpenCL::enum2str $f->[1];
@@ -113,11 +127,11 @@
    my $buf = $ctx->buffer_sv (OpenCL::MEM_COPY_HOST_PTR, "helmut");
 
    $queue->enqueue_read_buffer ($buf, 1, 1, 3, my $data);
-   warn $data;
+   print "$data\n";
 
    my $ev = $queue->enqueue_read_buffer ($buf, 0, 1, 3, my $data);
    $ev->wait;
-   warn $data;
+   print "$data\n"; # prints "elm"
 
 =head2 Create and build a program, then create a kernel out of one of its
 functions.
@@ -133,12 +147,14 @@
 
    my $prog = $ctx->program_with_source ($src);
 
+   # build croaks on compile errors, so catch it and print the compile errors
    eval { $prog->build ($dev); 1 }
       or die $prog->build_info ($dev, OpenCL::PROGRAM_BUILD_LOG);
 
    my $kernel = $prog->kernel ("squareit");
 
-=head2 Create some input and output float buffers, then call squareit on them.
+=head2 Create some input and output float buffers, then call the
+'squareit' kernel on them.
 
    my $input  = $ctx->buffer_sv (OpenCL::MEM_COPY_HOST_PTR, pack "f*", 1, 2, 3, 4.5);
    my $output = $ctx->buffer (0, OpenCL::SIZEOF_FLOAT * 5);
@@ -154,7 +170,7 @@
    $queue->enqueue_read_buffer ($output, 1, 0, OpenCL::SIZEOF_FLOAT * 4, my $data);
 
    # print the results:
-   say join ", ", unpack "f*", $data;
+   printf "%s\n", join ", ", unpack "f*", $data;
 
 =head2 The same enqueue operations as before, but assuming an out-of-order queue,
 showing off barriers.
@@ -247,7 +263,8 @@
 
 =item $int = OpenCL::errno
 
-The last error returned by a function - it's only changed on errors.
+The last error returned by a function - it's only valid after an error occured
+and before calling another OpenCL function.
 
 =item $str = OpenCL::err2str $errval
 
@@ -267,7 +284,7 @@
 
 L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clGetPlatformIDs.html>
 
-=item $ctx = OpenCL::context_from_type_simple $type = OpenCL::DEVICE_TYPE_DEFAULT
+=item $ctx = OpenCL::context_from_type $properties, $type = OpenCL::DEVICE_TYPE_DEFAULT, $notify = undef
 
 Tries to create a context from a default device and platform - never worked for me.
 
@@ -297,12 +314,19 @@
 
 Returns a list of matching OpenCL::Device objects.
 
-=item $ctx = $platform->context_from_type_simple ($type = OpenCL::DEVICE_TYPE_DEFAULT)
+=item $ctx = $platform->context_from_type ($properties, $type = OpenCL::DEVICE_TYPE_DEFAULT, $notify = undef)
 
-Tries to create a context. Never worked for me.
+Tries to create a context. Never worked for me, and you need devices explitly anyway.
 
 L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clCreateContextFromType.html>
 
+=item $ctx = $device->context ($properties = undef, @$devices, $notify = undef)
+
+Create a new OpenCL::Context object using the given device object(s)- a
+CL_CONTEXT_PLATFORM property is supplied automatically.
+
+L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clCreateContext.html>
+
 =back
 
 =head2 THE OpenCL::Device CLASS
@@ -315,12 +339,6 @@
 
 L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clGetDeviceInfo.html>
 
-=item $ctx = $device->context_simple
-
-Convenience function to create a new OpenCL::Context object.
-
-L<http://www.khronos.org/registry/cl/sdk/1.1/docs/man/xhtml/clCreateContext.html>
-
 =back
 
 =head2 THE OpenCL::Context CLASS
@@ -627,7 +645,7 @@
 use common::sense;
 
 BEGIN {
-   our $VERSION = '0.03';
+   our $VERSION = '0.14';
 
    require XSLoader;
    XSLoader::load (__PACKAGE__, $VERSION);