intern/cycles/device/optix/queue.cpp


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/* SPDX-License-Identifier: Apache-2.0
 * Copyright 2011-2022 Blender Foundation */

#ifdef WITH_OPTIX

#  include "device/optix/queue.h"
#  include "device/optix/device_impl.h"

#  include "util/time.h"

#  define __KERNEL_OPTIX__
#  include "kernel/device/optix/globals.h"

CCL_NAMESPACE_BEGIN

/* CUDADeviceQueue */

OptiXDeviceQueue::OptiXDeviceQueue(OptiXDevice *device) : CUDADeviceQueue(device)
{
}

void OptiXDeviceQueue::init_execution()
{
  CUDADeviceQueue::init_execution();
}

static bool is_optix_specific_kernel(DeviceKernel kernel)
{
  return (kernel == DEVICE_KERNEL_INTEGRATOR_SHADE_SURFACE_RAYTRACE ||
          kernel == DEVICE_KERNEL_INTEGRATOR_SHADE_SURFACE_MNEE ||
          kernel == DEVICE_KERNEL_INTEGRATOR_INTERSECT_CLOSEST ||
          kernel == DEVICE_KERNEL_INTEGRATOR_INTERSECT_SHADOW ||
          kernel == DEVICE_KERNEL_INTEGRATOR_INTERSECT_SUBSURFACE ||
          kernel == DEVICE_KERNEL_INTEGRATOR_INTERSECT_VOLUME_STACK);
}

bool OptiXDeviceQueue::enqueue(DeviceKernel kernel,
                               const int work_size,
                               DeviceKernelArguments const &args)
{
  if (!is_optix_specific_kernel(kernel)) {
    return CUDADeviceQueue::enqueue(kernel, work_size, args);
  }

  if (cuda_device_->have_error()) {
    return false;
  }

  debug_enqueue_begin(kernel, work_size);

  const CUDAContextScope scope(cuda_device_);

  OptiXDevice *const optix_device = static_cast<OptiXDevice *>(cuda_device_);

  const device_ptr sbt_data_ptr = optix_device->sbt_data.device_pointer;
  const device_ptr launch_params_ptr = optix_device->launch_params.device_pointer;

  cuda_device_assert(
      cuda_device_,
      cuMemcpyHtoDAsync(launch_params_ptr + offsetof(KernelParamsOptiX, path_index_array),
                        args.values[0],  // &d_path_index
                        sizeof(device_ptr),
                        cuda_stream_));

  if (kernel == DEVICE_KERNEL_INTEGRATOR_INTERSECT_CLOSEST ||
      kernel == DEVICE_KERNEL_INTEGRATOR_SHADE_SURFACE_RAYTRACE ||
      kernel == DEVICE_KERNEL_INTEGRATOR_SHADE_SURFACE_MNEE) {
    cuda_device_assert(
        cuda_device_,
        cuMemcpyHtoDAsync(launch_params_ptr + offsetof(KernelParamsOptiX, render_buffer),
                          args.values[1],  // &d_render_buffer
                          sizeof(device_ptr),
                          cuda_stream_));
  }

  cuda_device_assert(cuda_device_, cuStreamSynchronize(cuda_stream_));

  OptixPipeline pipeline = nullptr;
  OptixShaderBindingTable sbt_params = {};

  switch (kernel) {
    case DEVICE_KERNEL_INTEGRATOR_SHADE_SURFACE_RAYTRACE:
      pipeline = optix_device->pipelines[PIP_SHADE_RAYTRACE];
      sbt_params.raygenRecord = sbt_data_ptr + PG_RGEN_SHADE_SURFACE_RAYTRACE * sizeof(SbtRecord);
      break;
    case DEVICE_KERNEL_INTEGRATOR_SHADE_SURFACE_MNEE:
      pipeline = optix_device->pipelines[PIP_SHADE_MNEE];
      sbt_params.raygenRecord = sbt_data_ptr + PG_RGEN_SHADE_SURFACE_MNEE * sizeof(SbtRecord);
      break;
    case DEVICE_KERNEL_INTEGRATOR_INTERSECT_CLOSEST:
      pipeline = optix_device->pipelines[PIP_INTERSECT];
      sbt_params.raygenRecord = sbt_data_ptr + PG_RGEN_INTERSECT_CLOSEST * sizeof(SbtRecord);
      break;
    case DEVICE_KERNEL_INTEGRATOR_INTERSECT_SHADOW:
      pipeline = optix_device->pipelines[PIP_INTERSECT];
      sbt_params.raygenRecord = sbt_data_ptr + PG_RGEN_INTERSECT_SHADOW * sizeof(SbtRecord);
      break;
    case DEVICE_KERNEL_INTEGRATOR_INTERSECT_SUBSURFACE:
      pipeline = optix_device->pipelines[PIP_INTERSECT];
      sbt_params.raygenRecord = sbt_data_ptr + PG_RGEN_INTERSECT_SUBSURFACE * sizeof(SbtRecord);
      break;
    case DEVICE_KERNEL_INTEGRATOR_INTERSECT_VOLUME_STACK:
      pipeline = optix_device->pipelines[PIP_INTERSECT];
      sbt_params.raygenRecord = sbt_data_ptr + PG_RGEN_INTERSECT_VOLUME_STACK * sizeof(SbtRecord);
      break;

    default:
      LOG(ERROR) << "Invalid kernel " << device_kernel_as_string(kernel)
                 << " is attempted to be enqueued.";
      return false;
  }

  sbt_params.missRecordBase = sbt_data_ptr + MISS_PROGRAM_GROUP_OFFSET * sizeof(SbtRecord);
  sbt_params.missRecordStrideInBytes = sizeof(SbtRecord);
  sbt_params.missRecordCount = NUM_MIS_PROGRAM_GROUPS;
  sbt_params.hitgroupRecordBase = sbt_data_ptr + HIT_PROGAM_GROUP_OFFSET * sizeof(SbtRecord);
  sbt_params.hitgroupRecordStrideInBytes = sizeof(SbtRecord);
  sbt_params.hitgroupRecordCount = NUM_HIT_PROGRAM_GROUPS;
  sbt_params.callablesRecordBase = sbt_data_ptr + CALLABLE_PROGRAM_GROUPS_BASE * sizeof(SbtRecord);
  sbt_params.callablesRecordCount = NUM_CALLABLE_PROGRAM_GROUPS;
  sbt_params.callablesRecordStrideInBytes = sizeof(SbtRecord);

  /* Launch the ray generation program. */
  optix_device_assert(optix_device,
                      optixLaunch(pipeline,
                                  cuda_stream_,
                                  launch_params_ptr,
                                  optix_device->launch_params.data_elements,
                                  &sbt_params,
                                  work_size,
                                  1,
                                  1));

  debug_enqueue_end();

  return !(optix_device->have_error());
}

CCL_NAMESPACE_END

#endif /* WITH_OPTIX */