2023-01-06 17:05:09 +01:00
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// Copyright (C) 2023 RozK
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//
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Affero General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Affero General Public License for more details.
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//
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// You should have received a copy of the GNU Affero General Public License
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// along with this program. If not, see <http://www.gnu.org/licenses/>.
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#ifndef RK_ENGINE_VERTEX_FORMAT_H
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#define RK_ENGINE_VERTEX_FORMAT_H
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2023-01-07 06:30:08 +01:00
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#include "../render.hpp"
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2023-01-06 17:05:09 +01:00
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#include <limits>
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namespace rk_vertex {
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#pragma pack(push, 1)
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template<typename _type>
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struct alignas(alignof(_type)) rk_input {
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_type input;
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};
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template<typename _type, typename _input, bool _signed, bool _normalized>
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struct alignas(alignof(_type)) rk_output {
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_type output;
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[[RK_FAST]]
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inline void convert(
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rk_input<_input> const & __restrict src) {
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output = static_cast<_type>(src.input);
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}
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};
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template<typename _type, bool _signed>
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struct alignas(alignof(_type)) rk_output<_type, rk_float, _signed, true> {
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_type output;
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[[RK_FAST]]
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inline void convert(
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rk_input<rk_float> const & __restrict src) {
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enum : _type { max = std::numeric_limits<_type>::max() };
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output = static_cast<_type>(src.input * static_cast<float>(max));
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}
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};
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#pragma pack(4)
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template<typename _input, unsigned _cols>
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struct alignas(4) rk_input_row {
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rk_input<_input> input_col[_cols];
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};
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template<typename _output, typename _input, unsigned _cols, bool _signed, bool _normalized>
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struct alignas(4) rk_output_row {
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rk_output<_output, _input, _signed, _normalized> output_col[_cols];
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[[RK_FAST, RK_FLATTEN, RK_UNROLLED]]
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inline void convert(
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rk_input_row<_input, _cols> const & __restrict src) {
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for (unsigned col = 0; col < _cols; ++col) {
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output_col[col].convert(src.input_col[col]);
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}
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}
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};
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2023-01-06 18:16:10 +01:00
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template<typename _output, unsigned _cols, bool _signed, bool _normalized>
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struct alignas(4) rk_output_row<_output, _output, _cols, _signed, _normalized> {
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rk_output<_output, _output, _signed, _normalized> output_col[_cols];
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[[RK_FAST]]
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inline void convert(
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rk_input_row<_output, _cols> const & __restrict src) {
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static_assert(sizeof(output_col) == sizeof(src.input_col));
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rk_output<_output, _output, _signed, _normalized> const * const input_col =
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reinterpret_cast<rk_output<_output, _output, _signed, _normalized> const *>(src.input_col);
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*output_col = *input_col;
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}
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};
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2023-01-06 17:05:09 +01:00
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template<typename _input, unsigned _cols, bool _signed, bool _normalized>
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struct alignas(4) rk_output_row<rk_packed<_signed, _cols>, _input, _cols, _signed, _normalized> {
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rk_output<rk_packed<_signed, _cols>, _input, _signed, _normalized> output_cols;
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[[RK_FAST, RK_FLATTEN]]
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inline void convert(
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rk_input_row<_input, _cols> const & __restrict src) {
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output_cols.convert(src);
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}
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};
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template<typename _input, unsigned _cols, unsigned _rows>
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struct alignas(4) rk_input_format {
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rk_input_row<_input, _cols> input_row[_rows];
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};
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template<typename _output, typename _input, unsigned _cols, unsigned _rows, bool _signed, bool _normalized>
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struct alignas(4) rk_output_format {
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rk_output_row<_output, _input, _cols, _signed, _normalized> output_row[_rows];
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[[RK_FAST, RK_FLATTEN, RK_UNROLLED]]
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inline void convert(
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rk_input_format<_input, _cols, _rows> const & __restrict src) {
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for (unsigned row = 0; row < _rows; ++row) {
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output_row[row].convert(src.input_row[row]);
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}
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}
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};
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2023-01-06 18:16:10 +01:00
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template<typename _output, unsigned _cols, unsigned _rows, bool _signed, bool _normalized>
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struct alignas(4) rk_output_format<_output, _output, _cols, _rows, _signed, _normalized> {
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rk_output_row<_output, _output, _cols, _signed, _normalized> output_row[_rows];
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[[RK_FAST]]
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inline void convert(
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rk_input_format<_output, _cols, _rows> const & __restrict src) {
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static_assert(sizeof(output_row) == sizeof(src.input_row));
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rk_output_row<_output, _output, _cols, _signed, _normalized> const * const input_row =
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reinterpret_cast<rk_output_row<_output, _output, _cols, _signed, _normalized> const *>(src.input_row);
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*output_row = *input_row;
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}
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};
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2023-01-06 17:05:09 +01:00
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template<typename _input, bool _signed, bool _normalized>
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struct alignas(alignof(rk_packed<_signed, 3>)) rk_output<rk_packed<_signed, 3>, _input, _signed, _normalized> {
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rk_packed<_signed, 3> output;
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[[RK_FAST]]
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inline void convert(
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rk_input_row<_input, 3> const & __restrict src) {
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typedef typename rk_packed<_signed, 3>::type packed_type;
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output.packed =
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((static_cast<packed_type>(src.input_col[0].input) & 1023)) |
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((static_cast<packed_type>(src.input_col[1].input) & 1023) << 10) |
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((static_cast<packed_type>(src.input_col[2].input) & 1023) << 20);
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}
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};
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template<typename _input, bool _signed, bool _normalized>
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struct alignas(alignof(rk_packed<_signed, 4>)) rk_output<rk_packed<_signed, 4>, _input, _signed, _normalized> {
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rk_packed<_signed, 4> output;
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[[RK_FAST]]
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inline void convert(
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rk_input_row<_input, 4> const & __restrict src) {
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typedef typename rk_packed<_signed, 4>::type packed_type;
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output.packed =
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((static_cast<packed_type>(src.input_col[0].input) & 1023)) |
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((static_cast<packed_type>(src.input_col[1].input) & 1023) << 10) |
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((static_cast<packed_type>(src.input_col[2].input) & 1023) << 20) |
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((static_cast<packed_type>(src.input_col[3].input) & 3) << 30);
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}
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};
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template<>
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struct alignas(alignof(rk_packed<true, 3>)) rk_output<rk_packed<true, 3>, rk_float, true, true> {
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rk_packed<true, 3> output;
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[[RK_FAST]]
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inline void convert(
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rk_input_row<rk_float, 3> const & __restrict src) {
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output.packed =
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((static_cast<rk_int>(src.input_col[0].input * 511.f) & 1023)) |
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((static_cast<rk_int>(src.input_col[1].input * 511.f) & 1023) << 10) |
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((static_cast<rk_int>(src.input_col[2].input * 511.f) & 1023) << 20);
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}
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};
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template<>
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struct alignas(alignof(rk_packed<true, 4>)) rk_output<rk_packed<true, 4>, rk_float, true, true> {
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rk_packed<true, 4> output;
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[[RK_FAST]]
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inline void convert(
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rk_input_row<rk_float, 4> const & __restrict src) {
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output.packed =
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((static_cast<rk_uint>(src.input_col[0].input * 511.f) & 1023)) |
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((static_cast<rk_uint>(src.input_col[1].input * 511.f) & 1023) << 10) |
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((static_cast<rk_uint>(src.input_col[2].input * 511.f) & 1023) << 20) |
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((static_cast<rk_uint>(src.input_col[3].input) & 3) << 30);
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}
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};
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#pragma pack(pop)
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template<typename _output, typename _input, unsigned _cols, unsigned _rows, bool _signed, bool _normalized>
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struct rk_format {
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typedef rk_input<_input> input;
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typedef rk_output<_output, input, _signed, _normalized> output;
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typedef rk_input_row<_input, _cols> input_row;
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typedef rk_output_row<_output, _input, _cols, _signed, _normalized> output_row;
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typedef rk_input_format<_input, _cols, _rows> input_format;
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typedef rk_output_format<_output, _input, _cols, _rows, _signed, _normalized> output_format;
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static_assert(sizeof(input) == sizeof(_input));
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static_assert(sizeof(output) == sizeof(_output));
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static_assert((sizeof(input_row) % sizeof(rk_vertex_input)) == 0);
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static_assert((sizeof(output_row) % sizeof(rk_vertex_output)) == 0);
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static_assert((sizeof(input_format) % sizeof(rk_vertex_input)) == 0);
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static_assert((sizeof(output_format) % sizeof(rk_vertex_output)) == 0);
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static unsigned get_input_size() {
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return sizeof(input_format);
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}
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static unsigned get_output_size() {
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return sizeof(output_format);
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}
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static unsigned get_output_offset(unsigned const index) {
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return index * sizeof(output_row);
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}
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[[RK_FAST, RK_FLATTEN]]
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inline static void convert(
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output_format & __restrict dst,
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input_format const & __restrict src) {
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dst.convert(src);
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}
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[[RK_HOT, RK_FAST, RK_FLATTEN]]
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static void param_packer(
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unsigned const count,
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rk_instance_index const * const __restrict indices,
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rk_vertex_output * __restrict _dst,
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rk_vertex_input const * const __restrict _src) {
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rk_instance_index const * const last_index = indices + count;
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output_format * __restrict dst = reinterpret_cast<output_format *>(_dst);
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input_format const * const __restrict src = reinterpret_cast<input_format const *>(_src);
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for (rk_instance_index const * __restrict index = indices; index < last_index; ++index, ++dst) {
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dst->convert(src[*index]);
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}
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}
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};
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} // namepace rk_vertex
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2023-01-06 18:15:19 +01:00
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typedef rk_vertex::rk_format<rk_float, rk_float, 3, 1, true, false> rk_vec3_float;
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typedef rk_vertex::rk_format<rk_short, rk_float, 3, 1, true, false> rk_vec3_short;
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typedef rk_vertex::rk_format<rk_short, rk_float, 3, 1, true, true> rk_vec3_short_norm;
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typedef rk_vertex::rk_format<rk_packed<true, 3>, rk_float, 3, 1, true, false> rk_vec3_int10;
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typedef rk_vertex::rk_format<rk_packed<true, 3>, rk_float, 3, 1, true, true> rk_vec3_int10_norm;
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typedef rk_vertex::rk_format<rk_packed<false, 3>, rk_float, 3, 1, false, false> rk_vec3_uint10;
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typedef rk_vertex::rk_format<rk_packed<false, 3>, rk_float, 3, 1, false, true> rk_vec3_uint10_norm;
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typedef rk_vertex::rk_format<rk_float, rk_float, 3, 3, true, false> rk_mat3_float;
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typedef rk_vertex::rk_format<rk_packed<true, 3>, rk_float, 3, 3, true, false> rk_mat3_int10;
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typedef rk_vertex::rk_format<rk_packed<true, 3>, rk_float, 3, 3, true, true> rk_mat3_int10_norm;
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#endif // RK_ENGINE_VERTEX_FORMAT_H
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