Newer
Older
py::object py_headers)
{
PYOPENCL_PARSE_PY_DEVICES;
// {{{ pick apart py_headers
// py_headers is a list of tuples *(name, program)*
std::vector<std::string> header_names;
std::vector<cl_program> programs;
for (py::handle name_hdr_tup_py: py_headers)
py::tuple name_hdr_tup = py::reinterpret_borrow<py::tuple>(name_hdr_tup_py);
if (py::len(name_hdr_tup) != 2)
throw error("Program.compile", CL_INVALID_VALUE,
"epxected (name, header) tuple in headers list");
std::string name = (name_hdr_tup[0]).cast<std::string>();
program &prg = (name_hdr_tup[1]).cast<program &>();
header_names.push_back(name);
programs.push_back(prg.data());
}
std::vector<const char *> header_name_ptrs;
for (std::string const &name: header_names)
header_name_ptrs.push_back(name.c_str());
// }}}
PYOPENCL_CALL_GUARDED_THREADED(clCompileProgram,
(m_program, num_devices, devices,
options.c_str(), header_names.size(),
programs.empty() ? nullptr : &programs.front(),
header_name_ptrs.empty() ? nullptr : &header_name_ptrs.front(),
#if PYOPENCL_CL_VERSION >= 0x2020
void set_specialization_constant(cl_uint spec_id, py::object py_buffer)
{
py_buffer_wrapper bufwrap;
bufwrap.get(py_buffer.ptr(), PyBUF_ANY_CONTIGUOUS);
PYOPENCL_CALL_GUARDED(clSetProgramSpecializationConstant,
(m_program, spec_id, bufwrap.m_buf.len, bufwrap.m_buf.buf));
}
#endif
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};
inline
program *create_program_with_source(
context &ctx,
std::string const &src)
{
const char *string = src.c_str();
size_t length = src.size();
cl_int status_code;
PYOPENCL_PRINT_CALL_TRACE("clCreateProgramWithSource");
cl_program result = clCreateProgramWithSource(
ctx.data(), 1, &string, &length, &status_code);
if (status_code != CL_SUCCESS)
throw pyopencl::error("clCreateProgramWithSource", status_code);
try
{
return new program(result, false, program::KND_SOURCE);
}
catch (...)
{
clReleaseProgram(result);
throw;
}
}
inline
program *create_program_with_binary(
context &ctx,
py::sequence py_devices,
py::sequence py_binaries)
{
std::vector<cl_device_id> devices;
std::vector<const unsigned char *> binaries;
std::vector<size_t> sizes;
size_t num_devices = len(py_devices);
if (len(py_binaries) != num_devices)
throw error("create_program_with_binary", CL_INVALID_VALUE,
"device and binary counts don't match");
for (size_t i = 0; i < num_devices; ++i)
(py_devices[i]).cast<device const &>().data());
const void *buf;
PYOPENCL_BUFFER_SIZE_T len;
py_buffer_wrapper buf_wrapper;
buf_wrapper.get(py::object(py_binaries[i]).ptr(), PyBUF_ANY_CONTIGUOUS);
buf = buf_wrapper.m_buf.buf;
len = buf_wrapper.m_buf.len;
binaries.push_back(reinterpret_cast<const unsigned char *>(buf));
sizes.push_back(len);
}
Andreas Klöckner
committed
PYOPENCL_STACK_CONTAINER(cl_int, binary_statuses, num_devices);
cl_int status_code;
PYOPENCL_PRINT_CALL_TRACE("clCreateProgramWithBinary");
cl_program result = clCreateProgramWithBinary(
ctx.data(), num_devices,
devices.empty( ) ? nullptr : &devices.front(),
sizes.empty( ) ? nullptr : &sizes.front(),
binaries.empty( ) ? nullptr : &binaries.front(),
Andreas Klöckner
committed
PYOPENCL_STACK_CONTAINER_GET_PTR(binary_statuses),
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&status_code);
if (status_code != CL_SUCCESS)
throw pyopencl::error("clCreateProgramWithBinary", status_code);
/*
for (int i = 0; i < num_devices; ++i)
printf("%d:%d\n", i, binary_statuses[i]);
*/
try
{
return new program(result, false, program::KND_BINARY);
}
catch (...)
{
clReleaseProgram(result);
throw;
}
}
#if (PYOPENCL_CL_VERSION >= 0x1020) || \
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((PYOPENCL_CL_VERSION >= 0x1030) && defined(__APPLE__))
inline
program *create_program_with_built_in_kernels(
context &ctx,
py::object py_devices,
std::string const &kernel_names)
{
PYOPENCL_PARSE_PY_DEVICES;
cl_int status_code;
PYOPENCL_PRINT_CALL_TRACE("clCreateProgramWithBuiltInKernels");
cl_program result = clCreateProgramWithBuiltInKernels(
ctx.data(), num_devices, devices,
kernel_names.c_str(), &status_code);
if (status_code != CL_SUCCESS)
throw pyopencl::error("clCreateProgramWithBuiltInKernels", status_code);
try
{
return new program(result, false);
}
catch (...)
{
clReleaseProgram(result);
throw;
}
}
#endif
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#if (PYOPENCL_CL_VERSION >= 0x2010)
inline
program *create_program_with_il(
context &ctx,
std::string const &src)
{
cl_int status_code;
PYOPENCL_PRINT_CALL_TRACE("clCreateProgramWithIL");
cl_program result = clCreateProgramWithIL(
ctx.data(), src.c_str(), src.size(), &status_code);
if (status_code != CL_SUCCESS)
throw pyopencl::error("clCreateProgramWithIL", status_code);
try
{
return new program(result, false, program::KND_IL);
}
catch (...)
{
clReleaseProgram(result);
throw;
}
}
#endif
#if PYOPENCL_CL_VERSION >= 0x1020
inline
program *link_program(
context &ctx,
py::object py_programs,
std::string const &options,
py::object py_devices
)
{
PYOPENCL_PARSE_PY_DEVICES;
std::vector<cl_program> programs;
for (py::handle py_prg: py_programs)
program &prg = (py_prg).cast<program &>();
programs.push_back(prg.data());
}
cl_int status_code;
PYOPENCL_PRINT_CALL_TRACE("clLinkProgram");
cl_program result = clLinkProgram(
ctx.data(), num_devices, devices,
options.c_str(),
programs.size(),
0, 0,
&status_code);
if (status_code != CL_SUCCESS)
throw pyopencl::error("clLinkProgram", result, status_code);
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try
{
return new program(result, false);
}
catch (...)
{
clReleaseProgram(result);
throw;
}
}
#endif
#if PYOPENCL_CL_VERSION >= 0x1020
inline
void unload_platform_compiler(platform &plat)
{
PYOPENCL_CALL_GUARDED(clUnloadPlatformCompiler, (plat.data()));
}
#endif
// }}}
// {{{ kernel
class local_memory
{
private:
size_t m_size;
public:
local_memory(size_t size)
: m_size(size)
{ }
size_t size() const
{ return m_size; }
};
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{
private:
cl_kernel m_kernel;
public:
kernel(cl_kernel knl, bool retain)
: m_kernel(knl)
{
if (retain)
PYOPENCL_CALL_GUARDED(clRetainKernel, (knl));
}
kernel(program const &prg, std::string const &kernel_name)
{
cl_int status_code;
PYOPENCL_PRINT_CALL_TRACE("clCreateKernel");
m_kernel = clCreateKernel(prg.data(), kernel_name.c_str(),
&status_code);
if (status_code != CL_SUCCESS)
throw pyopencl::error("clCreateKernel", status_code);
}
~kernel()
{
PYOPENCL_CALL_GUARDED_CLEANUP(clReleaseKernel, (m_kernel));
}
cl_kernel data() const
{
return m_kernel;
}
PYOPENCL_EQUALITY_TESTS(kernel);
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#if PYOPENCL_CL_VERSION >= 0x2010
kernel *clone()
{
cl_int status_code;
PYOPENCL_PRINT_CALL_TRACE("clCloneKernel");
cl_kernel result = clCloneKernel(m_kernel, &status_code);
if (status_code != CL_SUCCESS)
throw pyopencl::error("clCloneKernel", status_code);
try
{
return new kernel(result, /* retain */ false);
}
catch (...)
{
PYOPENCL_CALL_GUARDED_CLEANUP(clReleaseKernel, (result));
throw;
}
}
#endif
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void set_arg_null(cl_uint arg_index)
{
cl_mem m = 0;
PYOPENCL_CALL_GUARDED(clSetKernelArg, (m_kernel, arg_index,
sizeof(cl_mem), &m));
}
void set_arg_mem(cl_uint arg_index, memory_object_holder &moh)
{
cl_mem m = moh.data();
PYOPENCL_CALL_GUARDED(clSetKernelArg,
(m_kernel, arg_index, sizeof(cl_mem), &m));
}
void set_arg_local(cl_uint arg_index, local_memory const &loc)
{
PYOPENCL_CALL_GUARDED(clSetKernelArg,
(m_kernel, arg_index, loc.size(), 0));
}
void set_arg_sampler(cl_uint arg_index, sampler const &smp)
{
cl_sampler s = smp.data();
PYOPENCL_CALL_GUARDED(clSetKernelArg,
(m_kernel, arg_index, sizeof(cl_sampler), &s));
}
void set_arg_command_queue(cl_uint arg_index, command_queue const &queue)
{
cl_command_queue q = queue.data();
PYOPENCL_CALL_GUARDED(clSetKernelArg,
(m_kernel, arg_index, sizeof(cl_command_queue), &q));
}
void set_arg_buf(cl_uint arg_index, py::object py_buffer)
{
const void *buf;
PYOPENCL_BUFFER_SIZE_T len;
py_buffer_wrapper buf_wrapper;
try
{
buf_wrapper.get(py_buffer.ptr(), PyBUF_ANY_CONTIGUOUS);
}
catch (py::error_already_set &)
{
PyErr_Clear();
throw error("Kernel.set_arg", CL_INVALID_VALUE,
"invalid kernel argument");
}
buf = buf_wrapper.m_buf.buf;
len = buf_wrapper.m_buf.len;
PYOPENCL_CALL_GUARDED(clSetKernelArg,
(m_kernel, arg_index, len, buf));
}
#if PYOPENCL_CL_VERSION >= 0x2000
void set_arg_svm(cl_uint arg_index, svm_arg_wrapper const &wrp)
{
PYOPENCL_CALL_GUARDED(clSetKernelArgSVMPointer,
(m_kernel, arg_index, wrp.ptr()));
}
#endif
void set_arg(cl_uint arg_index, py::object arg)
{
if (arg.ptr() == Py_None)
{
set_arg_null(arg_index);
return;
}
set_arg_mem(arg_index, arg.cast<memory_object_holder &>());
#if PYOPENCL_CL_VERSION >= 0x2000
try
{
set_arg_svm(arg_index, arg.cast<svm_arg_wrapper const &>());
return;
}
catch (py::cast_error &) { }
#endif
set_arg_local(arg_index, arg.cast<local_memory>());
set_arg_sampler(arg_index, arg.cast<const sampler &>());
try
{
set_arg_command_queue(arg_index, arg.cast<const command_queue &>());
return;
}
catch (py::cast_error &) { }
set_arg_buf(arg_index, arg);
}
py::object get_info(cl_kernel_info param_name) const
{
switch (param_name)
{
case CL_KERNEL_FUNCTION_NAME:
PYOPENCL_GET_STR_INFO(Kernel, m_kernel, param_name);
case CL_KERNEL_NUM_ARGS:
case CL_KERNEL_REFERENCE_COUNT:
PYOPENCL_GET_TYPED_INFO(Kernel, m_kernel, param_name,
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cl_uint);
case CL_KERNEL_CONTEXT:
PYOPENCL_GET_OPAQUE_INFO(Kernel, m_kernel, param_name,
cl_context, context);
case CL_KERNEL_PROGRAM:
PYOPENCL_GET_OPAQUE_INFO(Kernel, m_kernel, param_name,
cl_program, program);
#if PYOPENCL_CL_VERSION >= 0x1020
case CL_KERNEL_ATTRIBUTES:
PYOPENCL_GET_STR_INFO(Kernel, m_kernel, param_name);
#endif
default:
throw error("Kernel.get_info", CL_INVALID_VALUE);
}
}
py::object get_work_group_info(
cl_kernel_work_group_info param_name,
device const &dev
) const
{
switch (param_name)
{
#define PYOPENCL_FIRST_ARG m_kernel, dev.data() // hackety hack
case CL_KERNEL_WORK_GROUP_SIZE:
PYOPENCL_GET_TYPED_INFO(KernelWorkGroup,
PYOPENCL_FIRST_ARG, param_name,
size_t);
case CL_KERNEL_COMPILE_WORK_GROUP_SIZE:
{
std::vector<size_t> result;
PYOPENCL_GET_VEC_INFO(KernelWorkGroup,
PYOPENCL_FIRST_ARG, param_name, result);
PYOPENCL_RETURN_VECTOR(size_t, result);
}
case CL_KERNEL_LOCAL_MEM_SIZE:
#if PYOPENCL_CL_VERSION >= 0x1010
case CL_KERNEL_PRIVATE_MEM_SIZE:
#endif
PYOPENCL_GET_TYPED_INFO(KernelWorkGroup,
PYOPENCL_FIRST_ARG, param_name,
cl_ulong);
#if PYOPENCL_CL_VERSION >= 0x1010
case CL_KERNEL_PREFERRED_WORK_GROUP_SIZE_MULTIPLE:
PYOPENCL_GET_TYPED_INFO(KernelWorkGroup,
PYOPENCL_FIRST_ARG, param_name,
size_t);
#endif
default:
throw error("Kernel.get_work_group_info", CL_INVALID_VALUE);
#undef PYOPENCL_FIRST_ARG
}
}
#if PYOPENCL_CL_VERSION >= 0x1020
py::object get_arg_info(
cl_uint arg_index,
cl_kernel_arg_info param_name
) const
{
switch (param_name)
{
#define PYOPENCL_FIRST_ARG m_kernel, arg_index // hackety hack
case CL_KERNEL_ARG_ADDRESS_QUALIFIER:
PYOPENCL_GET_TYPED_INFO(KernelArg,
PYOPENCL_FIRST_ARG, param_name,
cl_kernel_arg_address_qualifier);
case CL_KERNEL_ARG_ACCESS_QUALIFIER:
PYOPENCL_GET_TYPED_INFO(KernelArg,
PYOPENCL_FIRST_ARG, param_name,
cl_kernel_arg_access_qualifier);
case CL_KERNEL_ARG_TYPE_NAME:
case CL_KERNEL_ARG_NAME:
PYOPENCL_GET_STR_INFO(KernelArg, PYOPENCL_FIRST_ARG, param_name);
case CL_KERNEL_ARG_TYPE_QUALIFIER:
PYOPENCL_GET_TYPED_INFO(KernelArg,
PYOPENCL_FIRST_ARG, param_name,
cl_kernel_arg_type_qualifier);
#undef PYOPENCL_FIRST_ARG
default:
throw error("Kernel.get_arg_info", CL_INVALID_VALUE);
}
}
#endif
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#if PYOPENCL_CL_VERSION >= 0x2010
py::object get_sub_group_info(
device const &dev,
cl_kernel_sub_group_info param_name,
py::object py_input_value)
{
switch (param_name)
{
// size_t * -> size_t
case CL_KERNEL_MAX_SUB_GROUP_SIZE_FOR_NDRANGE:
case CL_KERNEL_SUB_GROUP_COUNT_FOR_NDRANGE:
{
std::vector<size_t> input_value;
COPY_PY_LIST(size_t, input_value);
size_t param_value;
PYOPENCL_CALL_GUARDED(clGetKernelSubGroupInfo,
(m_kernel, dev.data(), param_name,
input_value.size()*sizeof(input_value.front()),
input_value.empty() ? nullptr : &input_value.front(),
sizeof(param_value), ¶m_value, 0));
return py::cast(param_value);
}
// size_t -> size_t[]
case CL_KERNEL_LOCAL_SIZE_FOR_SUB_GROUP_COUNT:
{
size_t input_value = py::cast<size_t>(py_input_value);
std::vector<size_t> result;
size_t size;
PYOPENCL_CALL_GUARDED(clGetKernelSubGroupInfo,
(m_kernel, dev.data(), param_name,
sizeof(input_value), &input_value,
0, nullptr, &size));
result.resize(size / sizeof(result.front()));
PYOPENCL_CALL_GUARDED(clGetKernelSubGroupInfo,
(m_kernel, dev.data(), param_name,
sizeof(input_value), &input_value,
size, result.empty() ? nullptr : &result.front(), 0));
PYOPENCL_RETURN_VECTOR(size_t, result);
}
// () -> size_t
case CL_KERNEL_MAX_NUM_SUB_GROUPS:
case CL_KERNEL_COMPILE_NUM_SUB_GROUPS:
{
size_t param_value;
PYOPENCL_CALL_GUARDED(clGetKernelSubGroupInfo,
(m_kernel, dev.data(), param_name,
0, nullptr,
sizeof(param_value), ¶m_value, 0));
return py::cast(param_value);
}
default:
throw error("Kernel.get_sub_group_info", CL_INVALID_VALUE);
}
}
#endif
};
inline
py::list create_kernels_in_program(program &pgm)
{
cl_uint num_kernels;
PYOPENCL_CALL_GUARDED(clCreateKernelsInProgram, (
pgm.data(), 0, 0, &num_kernels));
std::vector<cl_kernel> kernels(num_kernels);
PYOPENCL_CALL_GUARDED(clCreateKernelsInProgram, (
pgm.data(), num_kernels,
kernels.empty( ) ? nullptr : &kernels.front(), &num_kernels));
for (cl_kernel knl: kernels)
result.append(handle_from_new_ptr(new kernel(knl, true)));
return result;
}
inline
event *enqueue_nd_range_kernel(
command_queue &cq,
kernel &knl,
py::object py_global_work_size,
py::object py_local_work_size,
py::object py_global_work_offset,
py::object py_wait_for,
bool g_times_l,
bool allow_empty_ndrange)
{
PYOPENCL_PARSE_WAIT_FOR;
std::array<size_t, MAX_WS_DIM_COUNT> global_work_size;
unsigned gws_size = 0;
COPY_PY_ARRAY("enqueue_nd_range_kernel", size_t, global_work_size, gws_size);
cl_uint work_dim = gws_size;
std::array<size_t, MAX_WS_DIM_COUNT> local_work_size;
unsigned lws_size = 0;
size_t *local_work_size_ptr = nullptr;
if (py_local_work_size.ptr() != Py_None)
{
COPY_PY_ARRAY("enqueue_nd_range_kernel", size_t, local_work_size, lws_size);
work_dim = std::max(work_dim, lws_size);
if (work_dim != lws_size)
throw error("enqueue_nd_range_kernel", CL_INVALID_VALUE,
"global/local work sizes have differing dimensions");
while (lws_size < work_dim)
local_work_size[lws_size++] = 1;
while (gws_size < work_dim)
global_work_size[gws_size++] = 1;
local_work_size_ptr = &local_work_size.front();
if (g_times_l && lws_size)
{
for (cl_uint work_axis = 0; work_axis < work_dim; ++work_axis)
global_work_size[work_axis] *= local_work_size[work_axis];
}
size_t *global_work_offset_ptr = nullptr;
std::array<size_t, MAX_WS_DIM_COUNT> global_work_offset;
if (py_global_work_offset.ptr() != Py_None)
{
unsigned gwo_size = 0;
COPY_PY_ARRAY("enqueue_nd_range_kernel", size_t, global_work_offset, gwo_size);
if (work_dim != gwo_size)
throw error("enqueue_nd_range_kernel", CL_INVALID_VALUE,
"global work size and offset have differing dimensions");
if (g_times_l && local_work_size_ptr)
{
for (cl_uint work_axis = 0; work_axis < work_dim; ++work_axis)
global_work_offset[work_axis] *= local_work_size[work_axis];
}
global_work_offset_ptr = &global_work_offset.front();
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if (allow_empty_ndrange)
{
#if PYOPENCL_CL_VERSION >= 0x1020
bool is_empty = false;
for (cl_uint work_axis = 0; work_axis < work_dim; ++work_axis)
if (global_work_size[work_axis] == 0)
is_empty = true;
if (local_work_size_ptr)
for (cl_uint work_axis = 0; work_axis < work_dim; ++work_axis)
if (local_work_size_ptr[work_axis] == 0)
is_empty = true;
if (is_empty)
{
cl_event evt;
PYOPENCL_CALL_GUARDED(clEnqueueMarkerWithWaitList, (
cq.data(), PYOPENCL_WAITLIST_ARGS, &evt));
PYOPENCL_RETURN_NEW_EVENT(evt);
}
#else
// clEnqueueWaitForEvents + clEnqueueMarker is not equivalent
// in the case of an out-of-order queue.
throw error("enqueue_nd_range_kernel", CL_INVALID_VALUE,
"allow_empty_ndrange requires OpenCL 1.2");
#endif
}
PYOPENCL_RETRY_RETURN_IF_MEM_ERROR( {
cl_event evt;
PYOPENCL_CALL_GUARDED(clEnqueueNDRangeKernel, (
cq.data(),
knl.data(),
work_dim,
global_work_offset_ptr,
local_work_size_ptr,
PYOPENCL_WAITLIST_ARGS, &evt
));
PYOPENCL_RETURN_NEW_EVENT(evt);
} );
}
// }}}
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// {{{ gl interop
inline
bool have_gl()
{
#ifdef HAVE_GL
return true;
#else
return false;
#endif
}
#ifdef HAVE_GL
#ifdef __APPLE__
inline
cl_context_properties get_apple_cgl_share_group()
{
CGLContextObj kCGLContext = CGLGetCurrentContext();
CGLShareGroupObj kCGLShareGroup = CGLGetShareGroup(kCGLContext);
return (cl_context_properties) kCGLShareGroup;
}
#endif /* __APPLE__ */
class gl_buffer : public memory_object
{
public:
gl_buffer(cl_mem mem, bool retain, hostbuf_t hostbuf=hostbuf_t())
: memory_object(mem, retain, std::move(hostbuf))
{ }
};
class gl_renderbuffer : public memory_object
{
public:
gl_renderbuffer(cl_mem mem, bool retain, hostbuf_t hostbuf=hostbuf_t())
: memory_object(mem, retain, std::move(hostbuf))
{ }
};
class gl_texture : public image
{
public:
gl_texture(cl_mem mem, bool retain, hostbuf_t hostbuf=hostbuf_t())
: image(mem, retain, std::move(hostbuf))
{ }
py::object get_gl_texture_info(cl_gl_texture_info param_name)
{
switch (param_name)
{
case CL_GL_TEXTURE_TARGET:
PYOPENCL_GET_TYPED_INFO(GLTexture, data(), param_name, GLenum);
PYOPENCL_GET_TYPED_INFO(GLTexture, data(), param_name, GLint);
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default:
throw error("MemoryObject.get_gl_texture_info", CL_INVALID_VALUE);
}
}
};
#define PYOPENCL_WRAP_BUFFER_CREATOR(TYPE, NAME, CL_NAME, ARGS, CL_ARGS) \
inline \
TYPE *NAME ARGS \
{ \
cl_int status_code; \
PYOPENCL_PRINT_CALL_TRACE(#CL_NAME); \
cl_mem mem = CL_NAME CL_ARGS; \
\
if (status_code != CL_SUCCESS) \
throw pyopencl::error(#CL_NAME, status_code); \
\
try \
{ \
return new TYPE(mem, false); \
} \
catch (...) \
{ \
PYOPENCL_CALL_GUARDED(clReleaseMemObject, (mem)); \
throw; \
} \
}
PYOPENCL_WRAP_BUFFER_CREATOR(gl_buffer,
create_from_gl_buffer, clCreateFromGLBuffer,
(context &ctx, cl_mem_flags flags, GLuint bufobj),
(ctx.data(), flags, bufobj, &status_code));
PYOPENCL_WRAP_BUFFER_CREATOR(gl_texture,
create_from_gl_texture_2d, clCreateFromGLTexture2D,
(context &ctx, cl_mem_flags flags,
GLenum texture_target, GLint miplevel, GLuint texture),
(ctx.data(), flags, texture_target, miplevel, texture, &status_code));
PYOPENCL_WRAP_BUFFER_CREATOR(gl_texture,
create_from_gl_texture_3d, clCreateFromGLTexture3D,
(context &ctx, cl_mem_flags flags,
GLenum texture_target, GLint miplevel, GLuint texture),
(ctx.data(), flags, texture_target, miplevel, texture, &status_code));
PYOPENCL_WRAP_BUFFER_CREATOR(gl_renderbuffer,
create_from_gl_renderbuffer, clCreateFromGLRenderbuffer,
(context &ctx, cl_mem_flags flags, GLuint renderbuffer),
(ctx.data(), flags, renderbuffer, &status_code));
inline
gl_texture *create_from_gl_texture(
context &ctx, cl_mem_flags flags,
GLenum texture_target, GLint miplevel,
GLuint texture, unsigned dims)
{
if (dims == 2)
return create_from_gl_texture_2d(ctx, flags, texture_target, miplevel, texture);
else if (dims == 3)
return create_from_gl_texture_3d(ctx, flags, texture_target, miplevel, texture);
else
throw pyopencl::error("Image", CL_INVALID_VALUE,
"invalid dimension");
}
inline
py::tuple get_gl_object_info(memory_object_holder const &mem)
{
cl_gl_object_type otype;
GLuint gl_name;
PYOPENCL_CALL_GUARDED(clGetGLObjectInfo, (mem.data(), &otype, &gl_name));
return py::make_tuple(otype, gl_name);
}
#define WRAP_GL_ENQUEUE(what, What) \
inline \
event *enqueue_##what##_gl_objects( \
command_queue &cq, \
py::object py_mem_objects, \
py::object py_wait_for) \
{ \
PYOPENCL_PARSE_WAIT_FOR; \
\
std::vector<cl_mem> mem_objects; \
for (py::handle mo: py_mem_objects) \
mem_objects.push_back((mo).cast<memory_object_holder &>().data()); \
\
cl_event evt; \
PYOPENCL_CALL_GUARDED(clEnqueue##What##GLObjects, ( \
cq.data(), \
mem_objects.size(), mem_objects.empty( ) ? nullptr : &mem_objects.front(), \
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PYOPENCL_WAITLIST_ARGS, &evt \
)); \
\
PYOPENCL_RETURN_NEW_EVENT(evt); \
}
WRAP_GL_ENQUEUE(acquire, Acquire);
WRAP_GL_ENQUEUE(release, Release);
#endif
#if defined(cl_khr_gl_sharing) && (cl_khr_gl_sharing >= 1)
inline
py::object get_gl_context_info_khr(
py::object py_properties,
cl_gl_context_info param_name,
py::object py_platform
)
{
std::vector<cl_context_properties> props
= parse_context_properties(py_properties);
typedef CL_API_ENTRY cl_int (CL_API_CALL
*func_ptr_type)(const cl_context_properties * /* properties */,
cl_gl_context_info /* param_name */,
size_t /* param_value_size */,
void * /* param_value */,
size_t * /* param_value_size_ret */) CL_API_SUFFIX__VERSION_1_0;
func_ptr_type func_ptr;
#if PYOPENCL_CL_VERSION >= 0x1020
if (py_platform.ptr() != Py_None)
{
platform &plat = (py_platform).cast<platform &>();
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func_ptr = (func_ptr_type) clGetExtensionFunctionAddressForPlatform(
plat.data(), "clGetGLContextInfoKHR");
}
else
{
PYOPENCL_DEPRECATED("get_gl_context_info_khr with platform=None", "2013.1", );
func_ptr = (func_ptr_type) clGetExtensionFunctionAddress(
"clGetGLContextInfoKHR");
}
#else
func_ptr = (func_ptr_type) clGetExtensionFunctionAddress(
"clGetGLContextInfoKHR");
#endif
if (!func_ptr)
throw error("Context.get_info", CL_INVALID_PLATFORM,
"clGetGLContextInfoKHR extension function not present");
cl_context_properties *props_ptr
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switch (param_name)
{
case CL_CURRENT_DEVICE_FOR_GL_CONTEXT_KHR:
{
cl_device_id param_value;
PYOPENCL_CALL_GUARDED(func_ptr,
(props_ptr, param_name, sizeof(param_value), ¶m_value, 0));
return py::object(handle_from_new_ptr( \
new device(param_value, /*retain*/ true)));
}
case CL_DEVICES_FOR_GL_CONTEXT_KHR:
{
size_t size;
PYOPENCL_CALL_GUARDED(func_ptr,
(props_ptr, param_name, 0, 0, &size));
std::vector<cl_device_id> devices;
devices.resize(size / sizeof(devices.front()));