/* * Copyright (C) 2017-2019 Intel Corporation * * SPDX-License-Identifier: MIT * */ #include "runtime/program/block_kernel_manager.h" #include "core/helpers/debug_helpers.h" #include "runtime/command_stream/command_stream_receiver.h" #include "runtime/program/kernel_info.h" namespace NEO { void BlockKernelManager::addBlockKernelInfo(KernelInfo *blockKernelInfo) { blockKernelInfoArray.push_back(blockKernelInfo); blockUsesPrintf |= (blockKernelInfo->patchInfo.pAllocateStatelessPrintfSurface != nullptr); } const KernelInfo *BlockKernelManager::getBlockKernelInfo(size_t ordinal) { DEBUG_BREAK_IF(ordinal >= blockKernelInfoArray.size()); return blockKernelInfoArray[ordinal]; } BlockKernelManager::~BlockKernelManager() { for (auto &i : blockKernelInfoArray) delete i; } void BlockKernelManager::pushPrivateSurface(GraphicsAllocation *allocation, size_t ordinal) { if (blockPrivateSurfaceArray.size() < blockKernelInfoArray.size()) { blockPrivateSurfaceArray.resize(blockKernelInfoArray.size(), nullptr); } DEBUG_BREAK_IF(ordinal >= blockPrivateSurfaceArray.size()); blockPrivateSurfaceArray[ordinal] = allocation; } GraphicsAllocation *BlockKernelManager::getPrivateSurface(size_t ordinal) { // Ff queried ordinal is out of bound return nullptr, // this happens when no private surface was not pushed if (ordinal < blockPrivateSurfaceArray.size()) return blockPrivateSurfaceArray[ordinal]; return nullptr; } void BlockKernelManager::makeInternalAllocationsResident(CommandStreamReceiver &commandStreamReceiver) { auto blockCount = blockKernelInfoArray.size(); for (uint32_t surfaceIndex = 0; surfaceIndex < blockCount; surfaceIndex++) { auto surface = getPrivateSurface(surfaceIndex); if (surface) { commandStreamReceiver.makeResident(*surface); } surface = blockKernelInfoArray[surfaceIndex]->getGraphicsAllocation(); if (surface) { commandStreamReceiver.makeResident(*surface); } } } } // namespace NEO