0984a1f0fd
A HSA_IMAGE_ENABLE_3D_SWIZZLE_DEBUG environment flag exists already to enable/disable this. Default value is false (view3dAs2dArray = 1) Enabling this flag will enable support for swizzles that do 3D interleaving on GFX9, GF10 and GFX11. By default support for swizzles that do 3D interleaving is disabled.
617 строки
22 KiB
C++
617 строки
22 KiB
C++
////////////////////////////////////////////////////////////////////////////////
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//
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// The University of Illinois/NCSA
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// Open Source License (NCSA)
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//
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// Copyright (c) 2014-2020, Advanced Micro Devices, Inc. All rights reserved.
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//
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// Developed by:
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//
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// AMD Research and AMD HSA Software Development
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//
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// Advanced Micro Devices, Inc.
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//
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// www.amd.com
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//
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// Permission is hereby granted, free of charge, to any person obtaining a copy
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// of this software and associated documentation files (the "Software"), to
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// deal with the Software without restriction, including without limitation
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// the rights to use, copy, modify, merge, publish, distribute, sublicense,
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// and/or sell copies of the Software, and to permit persons to whom the
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// Software is furnished to do so, subject to the following conditions:
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//
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// - Redistributions of source code must retain the above copyright notice,
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// this list of conditions and the following disclaimers.
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// - Redistributions in binary form must reproduce the above copyright
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// notice, this list of conditions and the following disclaimers in
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// the documentation and/or other materials provided with the distribution.
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// - Neither the names of Advanced Micro Devices, Inc,
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// nor the names of its contributors may be used to endorse or promote
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// products derived from this Software without specific prior written
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// permission.
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//
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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// THE CONTRIBUTORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR
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// OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
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// ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
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// DEALINGS WITH THE SOFTWARE.
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//
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////////////////////////////////////////////////////////////////////////////////
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#define NOMINMAX
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#include "image_manager_ai.h"
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#include <assert.h>
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#include <algorithm>
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#include <climits>
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#include "core/inc/runtime.h"
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#include "hsakmt/hsakmt.h"
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#include "inc/hsa_ext_amd.h"
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#include "core/inc/hsa_internal.h"
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#include "addrlib/src/core/addrlib.h"
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#include "image_runtime.h"
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#include "resource.h"
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#include "resource_ai.h"
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#include "util.h"
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#include "device_info.h"
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namespace rocr {
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namespace image {
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ImageManagerAi::ImageManagerAi() : ImageManagerKv() {}
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ImageManagerAi::~ImageManagerAi() {}
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ASSERT_SIZE_UINT32(SQ_BUF_RSRC_WORD0)
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ASSERT_SIZE_UINT32(SQ_BUF_RSRC_WORD1)
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ASSERT_SIZE_UINT32(SQ_BUF_RSRC_WORD2)
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ASSERT_SIZE_UINT32(SQ_BUF_RSRC_WORD3)
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ASSERT_SIZE_UINT32(SQ_IMG_RSRC_WORD0)
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ASSERT_SIZE_UINT32(SQ_IMG_RSRC_WORD1)
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ASSERT_SIZE_UINT32(SQ_IMG_RSRC_WORD2)
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ASSERT_SIZE_UINT32(SQ_IMG_RSRC_WORD3)
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ASSERT_SIZE_UINT32(SQ_IMG_RSRC_WORD4)
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ASSERT_SIZE_UINT32(SQ_IMG_RSRC_WORD5)
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ASSERT_SIZE_UINT32(SQ_IMG_RSRC_WORD6)
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ASSERT_SIZE_UINT32(SQ_IMG_RSRC_WORD7)
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ASSERT_SIZE_UINT32(SQ_IMG_SAMP_WORD0)
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ASSERT_SIZE_UINT32(SQ_IMG_SAMP_WORD1)
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ASSERT_SIZE_UINT32(SQ_IMG_SAMP_WORD2)
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ASSERT_SIZE_UINT32(SQ_IMG_SAMP_WORD3)
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hsa_status_t ImageManagerAi::CalculateImageSizeAndAlignment(
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hsa_agent_t component, const hsa_ext_image_descriptor_t& desc,
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hsa_ext_image_data_layout_t image_data_layout,
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size_t image_data_row_pitch,
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size_t image_data_slice_pitch,
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hsa_ext_image_data_info_t& image_info) const {
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ADDR2_COMPUTE_SURFACE_INFO_OUTPUT out = {0};
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hsa_profile_t profile;
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hsa_status_t status = HSA::hsa_agent_get_info(component, HSA_AGENT_INFO_PROFILE, &profile);
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if (status != HSA_STATUS_SUCCESS) return status;
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Image::TileMode tileMode = Image::TileMode::LINEAR;
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if (image_data_layout == HSA_EXT_IMAGE_DATA_LAYOUT_OPAQUE) {
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tileMode = (profile == HSA_PROFILE_BASE &&
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desc.geometry != HSA_EXT_IMAGE_GEOMETRY_1DB)?
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Image::TileMode::TILED : Image::TileMode::LINEAR;
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}
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if (GetAddrlibSurfaceInfoAi(component, desc, tileMode,
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image_data_row_pitch, image_data_slice_pitch, out) == (uint32_t)(-1)) {
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return HSA_STATUS_ERROR;
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}
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size_t rowPitch = (out.bpp >> 3) * out.pitch;
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size_t slicePitch = rowPitch * out.height;
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if (desc.geometry != HSA_EXT_IMAGE_GEOMETRY_1DB &&
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image_data_layout == HSA_EXT_IMAGE_DATA_LAYOUT_LINEAR &&
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((image_data_row_pitch && (rowPitch != image_data_row_pitch)) ||
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(image_data_slice_pitch && (slicePitch != image_data_slice_pitch)))) {
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return static_cast<hsa_status_t>(HSA_EXT_STATUS_ERROR_IMAGE_PITCH_UNSUPPORTED);
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}
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image_info.size = out.surfSize;
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assert(image_info.size != 0);
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image_info.alignment = out.baseAlign;
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assert(image_info.alignment != 0);
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return HSA_STATUS_SUCCESS;
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}
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bool ImageManagerAi::IsLocalMemory(const void* address) const {
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return true;
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}
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hsa_status_t ImageManagerAi::PopulateImageSrd(Image& image, const metadata_amd_t* descriptor) const {
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metadata_amd_ai_t* desc = (metadata_amd_ai_t*)descriptor;
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const void* image_data_addr = image.data;
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ImageProperty image_prop = ImageLut().MapFormat(image.desc.format, image.desc.geometry);
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if((image_prop.cap == HSA_EXT_IMAGE_CAPABILITY_NOT_SUPPORTED) ||
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(image_prop.element_size == 0))
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return (hsa_status_t)HSA_EXT_STATUS_ERROR_IMAGE_FORMAT_UNSUPPORTED;
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const Swizzle swizzle = ImageLut().MapSwizzle(image.desc.format.channel_order);
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if (IsLocalMemory(image.data)) {
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image_data_addr = reinterpret_cast<const void*>(
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reinterpret_cast<uintptr_t>(image.data) - local_memory_base_address_);
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}
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image.srd[0]=desc->word0.u32All;
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image.srd[1]=desc->word1.u32All;
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image.srd[2]=desc->word2.u32All;
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image.srd[3]=desc->word3.u32All;
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image.srd[4]=desc->word4.u32All;
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image.srd[5]=desc->word5.u32All;
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image.srd[6]=desc->word6.u32All;
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image.srd[7]=desc->word7.u32All;
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if (image.desc.geometry == HSA_EXT_IMAGE_GEOMETRY_1DB) {
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sq_buf_rsrc_word0_u word0;
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sq_buf_rsrc_word1_u word1;
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sq_buf_rsrc_word3_u word3;
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word0.val = 0;
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word0.f.base_address = PtrLow32(image_data_addr);
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word1.val = image.srd[1];
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word1.f.base_address_hi = PtrHigh32(image_data_addr);
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word1.f.stride = image_prop.element_size;
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word3.val = image.srd[3];
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word3.f.dst_sel_x = swizzle.x;
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word3.f.dst_sel_y = swizzle.y;
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word3.f.dst_sel_z = swizzle.z;
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word3.f.dst_sel_w = swizzle.w;
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word3.f.num_format = image_prop.data_type;
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word3.f.data_format = image_prop.data_format;
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word3.f.index_stride = image_prop.element_size;
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image.srd[0] = word0.val;
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image.srd[1] = word1.val;
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image.srd[3] = word3.val;
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} else {
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uint32_t hwPixelSize = ImageLut().GetPixelSize(desc->word1.bitfields.DATA_FORMAT,
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desc->word1.bitfields.NUM_FORMAT);
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if(image_prop.element_size!=hwPixelSize)
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return (hsa_status_t)HSA_EXT_STATUS_ERROR_IMAGE_FORMAT_UNSUPPORTED;
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((SQ_IMG_RSRC_WORD0*)(&image.srd[0]))->bits.BASE_ADDRESS = PtrLow40Shift8(image_data_addr);
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((SQ_IMG_RSRC_WORD1*)(&image.srd[1]))->bits.BASE_ADDRESS_HI = PtrHigh64Shift40(image_data_addr);
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((SQ_IMG_RSRC_WORD1*)(&image.srd[1]))->bits.DATA_FORMAT = image_prop.data_format;
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((SQ_IMG_RSRC_WORD1*)(&image.srd[1]))->bits.NUM_FORMAT = image_prop.data_type;
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((SQ_IMG_RSRC_WORD3*)(&image.srd[3]))->bits.DST_SEL_X = swizzle.x;
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((SQ_IMG_RSRC_WORD3*)(&image.srd[3]))->bits.DST_SEL_Y = swizzle.y;
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((SQ_IMG_RSRC_WORD3*)(&image.srd[3]))->bits.DST_SEL_Z = swizzle.z;
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((SQ_IMG_RSRC_WORD3*)(&image.srd[3]))->bits.DST_SEL_W = swizzle.w;
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if (image.desc.geometry == HSA_EXT_IMAGE_GEOMETRY_1DA ||
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image.desc.geometry == HSA_EXT_IMAGE_GEOMETRY_1D) {
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((SQ_IMG_RSRC_WORD3*)(&image.srd[3]))->bits.TYPE =
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ImageLut().MapGeometry(image.desc.geometry);
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}
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// Imported metadata holds the offset to metadata, add the image base address.
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uintptr_t meta = uintptr_t(((SQ_IMG_RSRC_WORD5*)(&image.srd[5]))->bits.META_DATA_ADDRESS_HI) << 40;
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meta |= uintptr_t(((SQ_IMG_RSRC_WORD7*)(&image.srd[7]))->bits.META_DATA_ADDRESS) << 8;
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meta += reinterpret_cast<uintptr_t>(image_data_addr);
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((SQ_IMG_RSRC_WORD7*)(&image.srd[7]))->bits.META_DATA_ADDRESS = PtrLow40Shift8((void*)meta);
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((SQ_IMG_RSRC_WORD5*)(&image.srd[5]))->bits.META_DATA_ADDRESS_HI =
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PtrHigh64Shift40((void*)meta);
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}
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//Looks like this is only used for CPU copies.
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image.row_pitch = 0;//desc->word4.bits.pitch+1*desc->word3.bits.element_size;
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image.slice_pitch = 0;//desc->;
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//Used by HSAIL shader ABI
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image.srd[8] = image.desc.format.channel_type;
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image.srd[9] = image.desc.format.channel_order;
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image.srd[10] = static_cast<uint32_t>(image.desc.width);
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return HSA_STATUS_SUCCESS;
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}
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static TEX_BC_SWIZZLE GetBcSwizzle(const Swizzle& swizzle) {
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SEL r = (SEL)swizzle.x;
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SEL g = (SEL)swizzle.y;
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SEL b = (SEL)swizzle.z;
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SEL a = (SEL)swizzle.w;
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TEX_BC_SWIZZLE bcSwizzle = TEX_BC_Swizzle_XYZW;
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if (a == SEL_X)
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{
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// Have to use either TEX_BC_Swizzle_WZYX or TEX_BC_Swizzle_WXYZ
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//
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// For the pre-defined border color values (white, opaque black, transparent black), the only thing that
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// matters is that the alpha channel winds up in the correct place (because the RGB channels are all the same)
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// so either of these TEX_BC_Swizzle enumerations will work. Not sure what happens with border color palettes.
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if (b == SEL_Y)
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{
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// ABGR
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bcSwizzle = TEX_BC_Swizzle_WZYX;
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}
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else if ((r == SEL_X) && (g == SEL_X) && (b == SEL_X))
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{
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//RGBA
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bcSwizzle = TEX_BC_Swizzle_XYZW;
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}
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else
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{
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// ARGB
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bcSwizzle = TEX_BC_Swizzle_WXYZ;
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}
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}
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else if (r == SEL_X)
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{
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// Have to use either TEX_BC_Swizzle_XYZW or TEX_BC_Swizzle_XWYZ
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if (g == SEL_Y)
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{
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// RGBA
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bcSwizzle = TEX_BC_Swizzle_XYZW;
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}
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else if((g == SEL_X) && (b == SEL_X) && (a == SEL_W))
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{
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// RGBA
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bcSwizzle = TEX_BC_Swizzle_XYZW;
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}
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else
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{
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// RAGB
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bcSwizzle = TEX_BC_Swizzle_XWYZ;
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}
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}
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else if (g == SEL_X)
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{
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// GRAB, have to use TEX_BC_Swizzle_YXWZ
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bcSwizzle = TEX_BC_Swizzle_YXWZ;
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}
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else if (b == SEL_X)
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{
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// BGRA, have to use TEX_BC_Swizzle_ZYXW
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bcSwizzle = TEX_BC_Swizzle_ZYXW;
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}
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return bcSwizzle;
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}
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hsa_status_t ImageManagerAi::PopulateImageSrd(Image& image) const {
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ImageProperty image_prop = ImageLut().MapFormat(image.desc.format, image.desc.geometry);
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assert(image_prop.cap != HSA_EXT_IMAGE_CAPABILITY_NOT_SUPPORTED);
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assert(image_prop.element_size != 0);
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const void* image_data_addr = image.data;
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if (IsLocalMemory(image.data))
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image_data_addr = reinterpret_cast<const void*>(
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reinterpret_cast<uintptr_t>(image.data) - local_memory_base_address_);
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if (image.desc.geometry == HSA_EXT_IMAGE_GEOMETRY_1DB) {
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sq_buf_rsrc_word0_u word0;
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sq_buf_rsrc_word1_u word1;
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sq_buf_rsrc_word2_u word2;
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sq_buf_rsrc_word3_u word3;
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word0.val = 0;
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word0.f.base_address = PtrLow32(image_data_addr);
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word1.val = 0;
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word1.f.base_address_hi = PtrHigh32(image_data_addr);
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word1.f.stride = image_prop.element_size;
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word1.f.swizzle_enable = false;
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word1.f.cache_swizzle = false;
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word2.f.num_records = image.desc.width * image_prop.element_size;
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const Swizzle swizzle = ImageLut().MapSwizzle(image.desc.format.channel_order);
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word3.val = 0;
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word3.f.dst_sel_x = swizzle.x;
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word3.f.dst_sel_y = swizzle.y;
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word3.f.dst_sel_z = swizzle.z;
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word3.f.dst_sel_w = swizzle.w;
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word3.f.num_format = image_prop.data_type;
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word3.f.data_format = image_prop.data_format;
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word3.f.index_stride = image_prop.element_size;
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word3.f.type = ImageLut().MapGeometry(image.desc.geometry);
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image.srd[0] = word0.val;
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image.srd[1] = word1.val;
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image.srd[2] = word2.val;
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image.srd[3] = word3.val;
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image.row_pitch = image.desc.width * image_prop.element_size;
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image.slice_pitch = image.row_pitch;
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} else {
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sq_img_rsrc_word0_u word0;
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sq_img_rsrc_word1_u word1;
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sq_img_rsrc_word2_u word2;
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sq_img_rsrc_word3_u word3;
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sq_img_rsrc_word4_u word4;
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sq_img_rsrc_word5_u word5;
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sq_img_rsrc_word6_u word6;
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sq_img_rsrc_word7_u word7;
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ADDR2_COMPUTE_SURFACE_INFO_OUTPUT out = {0};
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uint32_t swizzleMode = GetAddrlibSurfaceInfoAi(image.component, image.desc, image.tile_mode,
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image.row_pitch, image.slice_pitch, out);
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if (swizzleMode == (uint32_t)(-1)) {
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return HSA_STATUS_ERROR;
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}
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assert((out.bpp / 8) == image_prop.element_size);
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const size_t row_pitch_size = out.pitch * image_prop.element_size;
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word0.f.base_address = PtrLow40Shift8(image_data_addr);
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word1.val = 0;
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word1.f.base_address_hi = PtrHigh64Shift40(image_data_addr);
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word1.f.min_lod = 0;
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word1.f.data_format = image_prop.data_format;
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word1.f.num_format = image_prop.data_type;
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word2.val = 0;
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word2.f.width = image.desc.width - 1;
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word2.f.height = image.desc.height - 1;
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word2.f.perf_mod = 0;
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const Swizzle swizzle = ImageLut().MapSwizzle(image.desc.format.channel_order);
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word3.val = 0;
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word3.f.dst_sel_x = swizzle.x;
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word3.f.dst_sel_y = swizzle.y;
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word3.f.dst_sel_z = swizzle.z;
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word3.f.dst_sel_w = swizzle.w;
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word3.f.sw_mode = swizzleMode;
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word3.f.type = ImageLut().MapGeometry(image.desc.geometry);
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const bool image_array =
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(image.desc.geometry == HSA_EXT_IMAGE_GEOMETRY_1DA ||
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image.desc.geometry == HSA_EXT_IMAGE_GEOMETRY_2DA ||
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image.desc.geometry == HSA_EXT_IMAGE_GEOMETRY_2DADEPTH);
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const bool image_3d = (image.desc.geometry == HSA_EXT_IMAGE_GEOMETRY_3D);
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word4.val = 0;
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word4.f.depth =
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(image_array)
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? std::max(image.desc.array_size, static_cast<size_t>(1)) - 1
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: (image_3d) ? image.desc.depth - 1 : 0;
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word4.f.pitch = out.pitch - 1;
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word4.f.bc_swizzle = GetBcSwizzle(swizzle);
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word5.val = 0;
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word6.val = 0;
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word7.val = 0;
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image.srd[0] = word0.val;
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image.srd[1] = word1.val;
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image.srd[2] = word2.val;
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image.srd[3] = word3.val;
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image.srd[4] = word4.val;
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image.srd[5] = word5.val;
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image.srd[6] = word6.val;
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image.srd[7] = word7.val;
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image.row_pitch = row_pitch_size;
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image.slice_pitch = out.sliceSize;
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}
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image.srd[8] = image.desc.format.channel_type;
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image.srd[9] = image.desc.format.channel_order;
|
|
image.srd[10] = static_cast<uint32_t>(image.desc.width);
|
|
|
|
return HSA_STATUS_SUCCESS;
|
|
}
|
|
|
|
hsa_status_t ImageManagerAi::ModifyImageSrd(
|
|
Image& image, hsa_ext_image_format_t& new_format) const {
|
|
image.desc.format = new_format;
|
|
|
|
ImageProperty image_prop = ImageLut().MapFormat(image.desc.format, image.desc.geometry);
|
|
assert(image_prop.cap != HSA_EXT_IMAGE_CAPABILITY_NOT_SUPPORTED);
|
|
assert(image_prop.element_size != 0);
|
|
|
|
if (image.desc.geometry == HSA_EXT_IMAGE_GEOMETRY_1DB) {
|
|
const Swizzle swizzle = ImageLut().MapSwizzle(image.desc.format.channel_order);
|
|
SQ_BUF_RSRC_WORD3* word3 =
|
|
reinterpret_cast<SQ_BUF_RSRC_WORD3*>(&image.srd[3]);
|
|
word3->bits.DST_SEL_X = swizzle.x;
|
|
word3->bits.DST_SEL_Y = swizzle.y;
|
|
word3->bits.DST_SEL_Z = swizzle.z;
|
|
word3->bits.DST_SEL_W = swizzle.w;
|
|
word3->bits.NUM_FORMAT = image_prop.data_type;
|
|
word3->bits.DATA_FORMAT = image_prop.data_format;
|
|
} else {
|
|
SQ_IMG_RSRC_WORD1* word1 =
|
|
reinterpret_cast<SQ_IMG_RSRC_WORD1*>(&image.srd[1]);
|
|
word1->bits.DATA_FORMAT = image_prop.data_format;
|
|
word1->bits.NUM_FORMAT = image_prop.data_type;
|
|
|
|
const Swizzle swizzle = ImageLut().MapSwizzle(image.desc.format.channel_order);
|
|
SQ_IMG_RSRC_WORD3* word3 =
|
|
reinterpret_cast<SQ_IMG_RSRC_WORD3*>(&image.srd[3]);
|
|
word3->bits.DST_SEL_X = swizzle.x;
|
|
word3->bits.DST_SEL_Y = swizzle.y;
|
|
word3->bits.DST_SEL_Z = swizzle.z;
|
|
word3->bits.DST_SEL_W = swizzle.w;
|
|
}
|
|
|
|
image.srd[8] = image.desc.format.channel_type;
|
|
image.srd[9] = image.desc.format.channel_order;
|
|
image.srd[10] = static_cast<uint32_t>(image.desc.width);
|
|
|
|
return HSA_STATUS_SUCCESS;
|
|
}
|
|
|
|
hsa_status_t ImageManagerAi::PopulateSamplerSrd(Sampler& sampler) const {
|
|
const hsa_ext_sampler_descriptor_v2_t &sampler_descriptor = sampler.desc;
|
|
|
|
SQ_IMG_SAMP_WORD0 word0;
|
|
SQ_IMG_SAMP_WORD1 word1;
|
|
SQ_IMG_SAMP_WORD2 word2;
|
|
SQ_IMG_SAMP_WORD3 word3;
|
|
|
|
word0.u32All = 0;
|
|
hsa_status_t status = convertAddressMode<SQ_IMG_SAMP_WORD0, SQ_TEX_CLAMP>
|
|
(word0, sampler_descriptor.address_modes);
|
|
if (status != HSA_STATUS_SUCCESS) return status;
|
|
word0.bits.FORCE_UNNORMALIZED = (sampler_descriptor.coordinate_mode ==
|
|
HSA_EXT_SAMPLER_COORDINATE_MODE_UNNORMALIZED);
|
|
|
|
word1.u32All = 0;
|
|
word1.bits.MAX_LOD = 4095;
|
|
|
|
word2.u32All = 0;
|
|
switch (sampler_descriptor.filter_mode) {
|
|
case HSA_EXT_SAMPLER_FILTER_MODE_NEAREST:
|
|
word2.bits.XY_MAG_FILTER = static_cast<int>(SQ_TEX_XY_FILTER_POINT);
|
|
break;
|
|
case HSA_EXT_SAMPLER_FILTER_MODE_LINEAR:
|
|
word2.bits.XY_MAG_FILTER = static_cast<int>(SQ_TEX_XY_FILTER_BILINEAR);
|
|
break;
|
|
default:
|
|
return HSA_STATUS_ERROR_INVALID_ARGUMENT;
|
|
}
|
|
word2.bits.XY_MIN_FILTER = word2.bits.XY_MAG_FILTER;
|
|
word2.bits.Z_FILTER = SQ_TEX_Z_FILTER_NONE;
|
|
word2.bits.MIP_FILTER = SQ_TEX_MIP_FILTER_NONE;
|
|
|
|
word3.u32All = 0;
|
|
|
|
// TODO: check this bit with HSAIL spec.
|
|
word3.bits.BORDER_COLOR_TYPE = SQ_TEX_BORDER_COLOR_TRANS_BLACK;
|
|
|
|
sampler.srd[0] = word0.u32All;
|
|
sampler.srd[1] = word1.u32All;
|
|
sampler.srd[2] = word2.u32All;
|
|
sampler.srd[3] = word3.u32All;
|
|
|
|
return HSA_STATUS_SUCCESS;
|
|
}
|
|
|
|
uint32_t ImageManagerAi::GetAddrlibSurfaceInfoAi(
|
|
hsa_agent_t component, const hsa_ext_image_descriptor_t& desc,
|
|
Image::TileMode tileMode,
|
|
size_t image_data_row_pitch,
|
|
size_t image_data_slice_pitch,
|
|
ADDR2_COMPUTE_SURFACE_INFO_OUTPUT& out) const {
|
|
const ImageProperty image_prop =
|
|
GetImageProperty(component, desc.format, desc.geometry);
|
|
|
|
const AddrFormat addrlib_format = GetAddrlibFormat(image_prop);
|
|
|
|
const uint32_t width = static_cast<uint32_t>(desc.width);
|
|
const uint32_t height = static_cast<uint32_t>(desc.height);
|
|
static const size_t kMinNumSlice = 1;
|
|
const uint32_t num_slice = static_cast<uint32_t>(
|
|
std::max(kMinNumSlice, std::max(desc.array_size, desc.depth)));
|
|
|
|
ADDR2_COMPUTE_SURFACE_INFO_INPUT in = {0};
|
|
in.size = sizeof(ADDR2_COMPUTE_SURFACE_INFO_INPUT);
|
|
in.format = addrlib_format;
|
|
in.bpp = static_cast<unsigned int>(image_prop.element_size) * 8;
|
|
in.width = width;
|
|
in.height = height;
|
|
in.numSlices = num_slice;
|
|
in.pitchInElement = image_data_row_pitch / image_prop.element_size;
|
|
switch(desc.geometry) {
|
|
case HSA_EXT_IMAGE_GEOMETRY_1D:
|
|
case HSA_EXT_IMAGE_GEOMETRY_1DB:
|
|
case HSA_EXT_IMAGE_GEOMETRY_1DA:
|
|
in.resourceType = ADDR_RSRC_TEX_1D;
|
|
break;
|
|
case HSA_EXT_IMAGE_GEOMETRY_2D:
|
|
case HSA_EXT_IMAGE_GEOMETRY_2DDEPTH:
|
|
case HSA_EXT_IMAGE_GEOMETRY_2DA:
|
|
case HSA_EXT_IMAGE_GEOMETRY_2DADEPTH:
|
|
in.resourceType = ADDR_RSRC_TEX_2D;
|
|
break;
|
|
case HSA_EXT_IMAGE_GEOMETRY_3D:
|
|
{
|
|
in.resourceType = ADDR_RSRC_TEX_3D;
|
|
/*
|
|
* 3D swizzle modes enforce alignment
|
|
* of the number of slices to the block depth.
|
|
* If numSlices = 3 then the 3 slices are
|
|
* interleaved for 3D locality among the 8 slices
|
|
* that make up each block. This causes the memory
|
|
* footprint to jump to a 3x size of the ideal size
|
|
*
|
|
* 'enable3DSwizzleMode' flag tests for env variable
|
|
* HSA_IMAGE_ENABLE_3D_SWIZZLE_DEBUG to enable or disable
|
|
* 3D swizzle:
|
|
* true: Keep view3dAs2dArray = 0 for real 3D interleaving.
|
|
* false: Use view3dAs2dArray = 1 to avoid the alignment
|
|
* expansion.
|
|
* 2D swizzle modes can lower size overhead but may yield
|
|
* suboptimal cache behavior for fully 3D volumetric
|
|
* operations.
|
|
*/
|
|
bool enable3DSwizzleMode = core::Runtime::runtime_singleton_->flag().enable_3d_swizzle();
|
|
if (enable3DSwizzleMode)
|
|
in.flags.view3dAs2dArray = 0;
|
|
else
|
|
in.flags.view3dAs2dArray = 1;
|
|
|
|
break;
|
|
}
|
|
}
|
|
in.flags.texture = 1;
|
|
|
|
ADDR2_GET_PREFERRED_SURF_SETTING_INPUT prefSettingsInput = { 0 };
|
|
ADDR2_GET_PREFERRED_SURF_SETTING_OUTPUT prefSettingsOutput = { 0 };
|
|
|
|
prefSettingsInput.size = sizeof(prefSettingsInput);
|
|
prefSettingsInput.flags = in.flags;
|
|
prefSettingsInput.bpp = in.bpp;
|
|
prefSettingsInput.format = in.format;
|
|
prefSettingsInput.width = in.width;
|
|
prefSettingsInput.height = in.height;
|
|
prefSettingsInput.numFrags = in.numFrags;
|
|
prefSettingsInput.numSamples = in.numSamples;
|
|
prefSettingsInput.numMipLevels = in.numMipLevels;
|
|
prefSettingsInput.numSlices = in.numSlices;
|
|
prefSettingsInput.resourceLoction = ADDR_RSRC_LOC_UNDEF;
|
|
prefSettingsInput.resourceType = in.resourceType;
|
|
|
|
// Disallow all swizzles but linear.
|
|
if (tileMode == Image::TileMode::LINEAR)
|
|
{
|
|
prefSettingsInput.forbiddenBlock.macroThin4KB = 1;
|
|
prefSettingsInput.forbiddenBlock.macroThick4KB = 1;
|
|
prefSettingsInput.forbiddenBlock.macroThin64KB = 1;
|
|
prefSettingsInput.forbiddenBlock.macroThick64KB = 1;
|
|
}
|
|
|
|
prefSettingsInput.forbiddenBlock.micro = 1; // but don't ever allow the 256b swizzle modes
|
|
prefSettingsInput.forbiddenBlock.var = 1; // and don't allow variable-size block modes
|
|
|
|
if (ADDR_OK != Addr2GetPreferredSurfaceSetting(addr_lib_, &prefSettingsInput, &prefSettingsOutput)) {
|
|
return (uint32_t)(-1);
|
|
}
|
|
|
|
in.swizzleMode = prefSettingsOutput.swizzleMode;
|
|
|
|
out.size = sizeof(ADDR2_COMPUTE_SURFACE_INFO_OUTPUT);
|
|
if (ADDR_OK != Addr2ComputeSurfaceInfo(addr_lib_, &in, &out)) {
|
|
return (uint32_t)(-1);
|
|
}
|
|
if (out.surfSize == 0) {
|
|
return (uint32_t)(-1);
|
|
}
|
|
|
|
return in.swizzleMode;
|
|
}
|
|
|
|
} // namespace image
|
|
} // namespace rocr
|