2018-03-20 00:00:29 +01:00
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// Copyright 2018 yuzu Emulator Project
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// Licensed under GPLv2 or any later version
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// Refer to the license.txt file included.
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2020-12-30 06:25:23 +01:00
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#include <array>
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2018-07-18 06:15:20 +02:00
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#include <cmath>
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2018-03-22 21:17:10 +01:00
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#include <cstring>
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2020-12-30 06:25:23 +01:00
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#include <span>
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#include <utility>
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2018-10-12 20:21:53 +02:00
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#include "common/alignment.h"
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2018-03-22 21:17:10 +01:00
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#include "common/assert.h"
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2020-07-04 23:42:10 +02:00
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#include "common/bit_util.h"
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2020-12-30 06:25:23 +01:00
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#include "common/div_ceil.h"
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2018-07-02 19:42:04 +02:00
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#include "video_core/gpu.h"
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2018-03-20 00:00:29 +01:00
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#include "video_core/textures/decoders.h"
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2018-03-22 21:17:10 +01:00
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#include "video_core/textures/texture.h"
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2018-03-20 00:00:29 +01:00
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2018-07-21 00:14:17 +02:00
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namespace Tegra::Texture {
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2020-12-30 06:25:23 +01:00
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namespace {
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2021-08-02 17:18:58 +02:00
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template <bool TO_LINEAR, u32 BYTES_PER_PIXEL>
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void SwizzleImpl(std::span<u8> output, std::span<const u8> input, u32 width, u32 height, u32 depth,
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u32 block_height, u32 block_depth, u32 stride_alignment) {
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2020-12-30 06:25:23 +01:00
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// The origin of the transformation can be configured here, leave it as zero as the current API
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// doesn't expose it.
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static constexpr u32 origin_x = 0;
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static constexpr u32 origin_y = 0;
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static constexpr u32 origin_z = 0;
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2018-03-22 21:17:10 +01:00
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2020-12-30 06:25:23 +01:00
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// We can configure here a custom pitch
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2021-08-02 17:18:58 +02:00
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// As it's not exposed 'width * BYTES_PER_PIXEL' will be the expected pitch.
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const u32 pitch = width * BYTES_PER_PIXEL;
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const u32 stride = Common::AlignUpLog2(width, stride_alignment) * BYTES_PER_PIXEL;
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2018-10-11 20:33:50 +02:00
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2020-12-30 06:25:23 +01:00
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const u32 gobs_in_x = Common::DivCeilLog2(stride, GOB_SIZE_X_SHIFT);
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const u32 block_size = gobs_in_x << (GOB_SIZE_SHIFT + block_height + block_depth);
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const u32 slice_size =
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Common::DivCeilLog2(height, block_height + GOB_SIZE_Y_SHIFT) * block_size;
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2018-10-11 04:03:38 +02:00
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2020-12-30 06:25:23 +01:00
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const u32 block_height_mask = (1U << block_height) - 1;
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const u32 block_depth_mask = (1U << block_depth) - 1;
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const u32 x_shift = GOB_SIZE_SHIFT + block_height + block_depth;
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for (u32 slice = 0; slice < depth; ++slice) {
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const u32 z = slice + origin_z;
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const u32 offset_z = (z >> block_depth) * slice_size +
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((z & block_depth_mask) << (GOB_SIZE_SHIFT + block_height));
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for (u32 line = 0; line < height; ++line) {
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const u32 y = line + origin_y;
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const auto& table = SWIZZLE_TABLE[y % GOB_SIZE_Y];
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const u32 block_y = y >> GOB_SIZE_Y_SHIFT;
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const u32 offset_y = (block_y >> block_height) * block_size +
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((block_y & block_height_mask) << GOB_SIZE_SHIFT);
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for (u32 column = 0; column < width; ++column) {
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2021-08-02 17:18:58 +02:00
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const u32 x = (column + origin_x) * BYTES_PER_PIXEL;
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2020-12-30 06:25:23 +01:00
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const u32 offset_x = (x >> GOB_SIZE_X_SHIFT) << x_shift;
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const u32 base_swizzled_offset = offset_z + offset_y + offset_x;
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const u32 swizzled_offset = base_swizzled_offset + table[x % GOB_SIZE_X];
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const u32 unswizzled_offset =
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slice * pitch * height + line * pitch + column * BYTES_PER_PIXEL;
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2020-12-30 06:25:23 +01:00
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2021-06-04 09:35:13 +02:00
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if (const auto offset = (TO_LINEAR ? unswizzled_offset : swizzled_offset);
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offset >= input.size()) {
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// TODO(Rodrigo): This is an out of bounds access that should never happen. To
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2021-06-04 11:12:14 +02:00
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// avoid crashing the emulator, break.
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ASSERT_MSG(false, "offset {} exceeds input size {}!", offset, input.size());
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2021-06-04 11:12:14 +02:00
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break;
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}
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2020-12-30 06:25:23 +01:00
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u8* const dst = &output[TO_LINEAR ? swizzled_offset : unswizzled_offset];
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const u8* const src = &input[TO_LINEAR ? unswizzled_offset : swizzled_offset];
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2021-08-02 17:18:58 +02:00
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std::memcpy(dst, src, BYTES_PER_PIXEL);
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2018-10-11 04:03:38 +02:00
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}
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}
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}
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}
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2021-08-02 17:18:58 +02:00
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template <bool TO_LINEAR>
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void Swizzle(std::span<u8> output, std::span<const u8> input, u32 bytes_per_pixel, u32 width,
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u32 height, u32 depth, u32 block_height, u32 block_depth, u32 stride_alignment) {
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switch (bytes_per_pixel) {
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case 1:
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return SwizzleImpl<TO_LINEAR, 1>(output, input, width, height, depth, block_height,
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block_depth, stride_alignment);
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case 2:
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return SwizzleImpl<TO_LINEAR, 2>(output, input, width, height, depth, block_height,
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block_depth, stride_alignment);
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case 3:
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return SwizzleImpl<TO_LINEAR, 3>(output, input, width, height, depth, block_height,
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block_depth, stride_alignment);
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case 4:
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return SwizzleImpl<TO_LINEAR, 4>(output, input, width, height, depth, block_height,
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block_depth, stride_alignment);
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case 6:
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return SwizzleImpl<TO_LINEAR, 6>(output, input, width, height, depth, block_height,
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block_depth, stride_alignment);
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case 8:
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return SwizzleImpl<TO_LINEAR, 8>(output, input, width, height, depth, block_height,
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block_depth, stride_alignment);
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case 12:
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return SwizzleImpl<TO_LINEAR, 12>(output, input, width, height, depth, block_height,
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block_depth, stride_alignment);
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case 16:
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return SwizzleImpl<TO_LINEAR, 16>(output, input, width, height, depth, block_height,
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block_depth, stride_alignment);
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default:
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UNREACHABLE_MSG("Invalid bytes_per_pixel={}", bytes_per_pixel);
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}
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}
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2020-04-17 04:43:33 +02:00
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} // Anonymous namespace
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2020-12-30 06:25:23 +01:00
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void UnswizzleTexture(std::span<u8> output, std::span<const u8> input, u32 bytes_per_pixel,
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u32 width, u32 height, u32 depth, u32 block_height, u32 block_depth,
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u32 stride_alignment) {
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Swizzle<false>(output, input, bytes_per_pixel, width, height, depth, block_height, block_depth,
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stride_alignment);
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2018-11-19 04:53:03 +01:00
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}
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2020-12-30 06:25:23 +01:00
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void SwizzleTexture(std::span<u8> output, std::span<const u8> input, u32 bytes_per_pixel, u32 width,
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u32 height, u32 depth, u32 block_height, u32 block_depth,
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u32 stride_alignment) {
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Swizzle<true>(output, input, bytes_per_pixel, width, height, depth, block_height, block_depth,
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stride_alignment);
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2018-03-22 21:17:10 +01:00
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}
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2018-10-18 03:26:40 +02:00
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void SwizzleSubrect(u32 subrect_width, u32 subrect_height, u32 source_pitch, u32 swizzled_width,
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2020-07-04 23:42:10 +02:00
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u32 bytes_per_pixel, u8* swizzled_data, const u8* unswizzled_data,
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2019-07-25 01:18:17 +02:00
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u32 block_height_bit, u32 offset_x, u32 offset_y) {
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2019-06-13 22:41:16 +02:00
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const u32 block_height = 1U << block_height_bit;
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2020-07-04 23:42:10 +02:00
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const u32 image_width_in_gobs =
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(swizzled_width * bytes_per_pixel + (GOB_SIZE_X - 1)) / GOB_SIZE_X;
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2018-10-18 03:26:40 +02:00
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for (u32 line = 0; line < subrect_height; ++line) {
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2019-07-25 01:18:17 +02:00
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const u32 dst_y = line + offset_y;
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2018-10-18 03:26:40 +02:00
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const u32 gob_address_y =
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2020-07-04 23:42:10 +02:00
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(dst_y / (GOB_SIZE_Y * block_height)) * GOB_SIZE * block_height * image_width_in_gobs +
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((dst_y % (GOB_SIZE_Y * block_height)) / GOB_SIZE_Y) * GOB_SIZE;
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2020-12-30 06:25:23 +01:00
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const auto& table = SWIZZLE_TABLE[dst_y % GOB_SIZE_Y];
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2018-10-18 03:26:40 +02:00
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for (u32 x = 0; x < subrect_width; ++x) {
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2019-07-25 01:18:17 +02:00
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const u32 dst_x = x + offset_x;
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2018-11-17 01:55:28 +01:00
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const u32 gob_address =
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2020-07-04 23:42:10 +02:00
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gob_address_y + (dst_x * bytes_per_pixel / GOB_SIZE_X) * GOB_SIZE * block_height;
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const u32 swizzled_offset = gob_address + table[(dst_x * bytes_per_pixel) % GOB_SIZE_X];
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const u32 unswizzled_offset = line * source_pitch + x * bytes_per_pixel;
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2018-10-18 03:26:40 +02:00
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2020-07-04 23:42:10 +02:00
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const u8* const source_line = unswizzled_data + unswizzled_offset;
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u8* const dest_addr = swizzled_data + swizzled_offset;
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2019-02-24 06:15:35 +01:00
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std::memcpy(dest_addr, source_line, bytes_per_pixel);
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2018-10-18 03:26:40 +02:00
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}
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}
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}
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2020-07-30 06:38:44 +02:00
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void UnswizzleSubrect(u32 line_length_in, u32 line_count, u32 pitch, u32 width, u32 bytes_per_pixel,
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u32 block_height, u32 origin_x, u32 origin_y, u8* output, const u8* input) {
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const u32 stride = width * bytes_per_pixel;
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const u32 gobs_in_x = (stride + GOB_SIZE_X - 1) / GOB_SIZE_X;
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const u32 block_size = gobs_in_x << (GOB_SIZE_SHIFT + block_height);
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const u32 block_height_mask = (1U << block_height) - 1;
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2020-12-30 06:25:23 +01:00
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const u32 x_shift = GOB_SIZE_SHIFT + block_height;
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2020-07-30 06:38:44 +02:00
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for (u32 line = 0; line < line_count; ++line) {
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const u32 src_y = line + origin_y;
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2020-12-30 06:25:23 +01:00
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const auto& table = SWIZZLE_TABLE[src_y % GOB_SIZE_Y];
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2020-07-30 06:38:44 +02:00
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const u32 block_y = src_y >> GOB_SIZE_Y_SHIFT;
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const u32 src_offset_y = (block_y >> block_height) * block_size +
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((block_y & block_height_mask) << GOB_SIZE_SHIFT);
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for (u32 column = 0; column < line_length_in; ++column) {
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const u32 src_x = (column + origin_x) * bytes_per_pixel;
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const u32 src_offset_x = (src_x >> GOB_SIZE_X_SHIFT) << x_shift;
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const u32 swizzled_offset = src_offset_y + src_offset_x + table[src_x % GOB_SIZE_X];
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const u32 unswizzled_offset = line * pitch + column * bytes_per_pixel;
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2018-10-18 03:26:40 +02:00
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2020-07-30 06:38:44 +02:00
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std::memcpy(output + unswizzled_offset, input + swizzled_offset, bytes_per_pixel);
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2018-10-18 03:26:40 +02:00
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}
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}
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}
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2020-07-04 23:42:10 +02:00
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void SwizzleSliceToVoxel(u32 line_length_in, u32 line_count, u32 pitch, u32 width, u32 height,
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u32 bytes_per_pixel, u32 block_height, u32 block_depth, u32 origin_x,
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u32 origin_y, u8* output, const u8* input) {
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UNIMPLEMENTED_IF(origin_x > 0);
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UNIMPLEMENTED_IF(origin_y > 0);
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const u32 stride = width * bytes_per_pixel;
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const u32 gobs_in_x = (stride + GOB_SIZE_X - 1) / GOB_SIZE_X;
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const u32 block_size = gobs_in_x << (GOB_SIZE_SHIFT + block_height + block_depth);
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const u32 block_height_mask = (1U << block_height) - 1;
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2020-07-30 06:38:44 +02:00
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const u32 x_shift = static_cast<u32>(GOB_SIZE_SHIFT) + block_height + block_depth;
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2020-07-04 23:42:10 +02:00
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for (u32 line = 0; line < line_count; ++line) {
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2020-12-30 06:25:23 +01:00
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const auto& table = SWIZZLE_TABLE[line % GOB_SIZE_Y];
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2020-07-04 23:42:10 +02:00
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const u32 block_y = line / GOB_SIZE_Y;
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const u32 dst_offset_y =
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(block_y >> block_height) * block_size + (block_y & block_height_mask) * GOB_SIZE;
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for (u32 x = 0; x < line_length_in; ++x) {
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const u32 dst_offset =
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((x / GOB_SIZE_X) << x_shift) + dst_offset_y + table[x % GOB_SIZE_X];
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const u32 src_offset = x * bytes_per_pixel + line * pitch;
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std::memcpy(output + dst_offset, input + src_offset, bytes_per_pixel);
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}
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}
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}
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2019-04-16 18:00:46 +02:00
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void SwizzleKepler(const u32 width, const u32 height, const u32 dst_x, const u32 dst_y,
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2019-06-13 22:41:16 +02:00
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const u32 block_height_bit, const std::size_t copy_size, const u8* source_data,
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2019-04-16 18:00:46 +02:00
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u8* swizzle_data) {
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2019-06-13 22:41:16 +02:00
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const u32 block_height = 1U << block_height_bit;
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2020-07-04 23:42:10 +02:00
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const u32 image_width_in_gobs{(width + GOB_SIZE_X - 1) / GOB_SIZE_X};
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2019-04-16 03:06:04 +02:00
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std::size_t count = 0;
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2019-04-16 18:00:46 +02:00
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for (std::size_t y = dst_y; y < height && count < copy_size; ++y) {
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const std::size_t gob_address_y =
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2020-07-04 23:42:10 +02:00
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(y / (GOB_SIZE_Y * block_height)) * GOB_SIZE * block_height * image_width_in_gobs +
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((y % (GOB_SIZE_Y * block_height)) / GOB_SIZE_Y) * GOB_SIZE;
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2020-12-30 06:25:23 +01:00
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const auto& table = SWIZZLE_TABLE[y % GOB_SIZE_Y];
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2019-04-16 18:00:46 +02:00
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for (std::size_t x = dst_x; x < width && count < copy_size; ++x) {
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const std::size_t gob_address =
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2020-07-04 23:42:10 +02:00
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gob_address_y + (x / GOB_SIZE_X) * GOB_SIZE * block_height;
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const std::size_t swizzled_offset = gob_address + table[x % GOB_SIZE_X];
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2019-04-16 03:06:04 +02:00
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const u8* source_line = source_data + count;
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u8* dest_addr = swizzle_data + swizzled_offset;
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count++;
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std::memcpy(dest_addr, source_line, 1);
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}
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}
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}
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2018-10-12 20:21:53 +02:00
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std::size_t CalculateSize(bool tiled, u32 bytes_per_pixel, u32 width, u32 height, u32 depth,
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u32 block_height, u32 block_depth) {
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if (tiled) {
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2021-01-15 08:02:37 +01:00
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const u32 aligned_width = Common::AlignUpLog2(width * bytes_per_pixel, GOB_SIZE_X_SHIFT);
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const u32 aligned_height = Common::AlignUpLog2(height, GOB_SIZE_Y_SHIFT + block_height);
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const u32 aligned_depth = Common::AlignUpLog2(depth, GOB_SIZE_Z_SHIFT + block_depth);
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2019-04-14 06:44:16 +02:00
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return aligned_width * aligned_height * aligned_depth;
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2018-10-12 20:21:53 +02:00
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} else {
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return width * height * depth * bytes_per_pixel;
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}
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}
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2020-04-28 05:57:24 +02:00
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u64 GetGOBOffset(u32 width, u32 height, u32 dst_x, u32 dst_y, u32 block_height,
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u32 bytes_per_pixel) {
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auto div_ceil = [](const u32 x, const u32 y) { return ((x + y - 1) / y); };
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const u32 gobs_in_block = 1 << block_height;
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2020-07-04 23:42:10 +02:00
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const u32 y_blocks = GOB_SIZE_Y << block_height;
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const u32 x_per_gob = GOB_SIZE_X / bytes_per_pixel;
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2020-04-28 05:57:24 +02:00
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const u32 x_blocks = div_ceil(width, x_per_gob);
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2020-07-04 23:42:10 +02:00
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const u32 block_size = GOB_SIZE * gobs_in_block;
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2020-04-28 05:57:24 +02:00
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const u32 stride = block_size * x_blocks;
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const u32 base = (dst_y / y_blocks) * stride + (dst_x / x_per_gob) * block_size;
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const u32 relative_y = dst_y % y_blocks;
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2020-07-04 23:42:10 +02:00
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return base + (relative_y / GOB_SIZE_Y) * GOB_SIZE;
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2020-04-28 05:57:24 +02:00
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}
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2018-07-21 00:14:17 +02:00
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} // namespace Tegra::Texture
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