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vector_funcs.h
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/*
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* Copyright (c) 2015 Cisco and/or its affiliates.
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at:
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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/*
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Copyright (c) 2008 Eliot Dresselhaus
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Permission is hereby granted, free of charge, to any person obtaining
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a copy of this software and associated documentation files (the
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"Software"), to deal in the Software without restriction, including
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without limitation the rights to use, copy, modify, merge, publish,
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distribute, sublicense, and/or sell copies of the Software, and to
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permit persons to whom the Software is furnished to do so, subject to
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the following conditions:
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The above copyright notice and this permission notice shall be
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included in all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
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NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
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LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
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OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
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WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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*/
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#ifndef included_vector_funcs_h
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#define included_vector_funcs_h
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#include <
vppinfra/byte_order.h
>
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/* Addition/subtraction. */
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#if CLIB_VECTOR_WORD_BITS == 128
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#define u8x_add u8x16_add
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#define u16x_add u16x8_add
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#define u32x_add u32x4_add
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#define u64x_add u64x2_add
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#define i8x_add i8x16_add
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#define i16x_add i16x8_add
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#define i32x_add i32x4_add
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#define i64x_add i64x2_add
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#define u8x_sub u8x16_sub
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#define u16x_sub u16x8_sub
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#define u32x_sub u32x4_sub
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#define u64x_sub u64x2_sub
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#define i8x_sub i8x16_sub
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#define i16x_sub i16x8_sub
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#define i32x_sub i32x4_sub
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#define i64x_sub i64x2_sub
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#endif
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#if CLIB_VECTOR_WORD_BITS == 64
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#define u8x_add u8x8_add
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#define u16x_add u16x4_add
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#define u32x_add u32x2_add
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#define i8x_add i8x8_add
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#define i16x_add i16x4_add
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#define i32x_add i32x2_add
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#define u8x_sub u8x8_sub
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#define u16x_sub u16x4_sub
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#define u32x_sub u32x2_sub
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#define i8x_sub i8x8_sub
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#define i16x_sub i16x4_sub
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#define i32x_sub i32x2_sub
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#endif
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/* Saturating addition/subtraction. */
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#if CLIB_VECTOR_WORD_BITS == 128
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#define u8x_add_saturate u8x16_add_saturate
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#define u16x_add_saturate u16x8_add_saturate
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#define i8x_add_saturate i8x16_add_saturate
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#define i16x_add_saturate i16x8_add_saturate
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#define u8x_sub_saturate u8x16_sub_saturate
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#define u16x_sub_saturate u16x8_sub_saturate
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#define i8x_sub_saturate i8x16_sub_saturate
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#define i16x_sub_saturate i16x8_sub_saturate
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#endif
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#if CLIB_VECTOR_WORD_BITS == 64
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#define u8x_add_saturate u8x8_add_saturate
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#define u16x_add_saturate u16x4_add_saturate
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#define i8x_add_saturate i8x8_add_saturate
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#define i16x_add_saturate i16x4_add_saturate
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#define u8x_sub_saturate u8x8_sub_saturate
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#define u16x_sub_saturate u16x4_sub_saturate
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#define i8x_sub_saturate i8x8_sub_saturate
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#define i16x_sub_saturate i16x4_sub_saturate
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#endif
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#define _vector_interleave(a,b,t) \
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do { \
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t _tmp_lo = t##_interleave_lo (a, b); \
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t _tmp_hi = t##_interleave_hi (a, b); \
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if (CLIB_ARCH_IS_LITTLE_ENDIAN) \
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(a) = _tmp_lo, (b) = _tmp_hi; \
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else \
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(a) = _tmp_hi, (b) = _tmp_lo; \
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} while (0)
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/* 128 bit interleaves. */
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#define u8x16_interleave(a,b) _vector_interleave(a,b,u8x16)
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#define i8x16_interleave(a,b) _vector_interleave(a,b,i8x16)
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#define u16x8_interleave(a,b) _vector_interleave(a,b,u16x8)
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#define i16x8_interleave(a,b) _vector_interleave(a,b,i16x8)
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#define u32x4_interleave(a,b) _vector_interleave(a,b,u32x4)
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#define i32x4_interleave(a,b) _vector_interleave(a,b,i32x4)
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#define u64x2_interleave(a,b) _vector_interleave(a,b,u64x2)
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#define i64x2_interleave(a,b) _vector_interleave(a,b,i64x2)
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/* 64 bit interleaves. */
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#define u8x8_interleave(a,b) _vector_interleave(a,b,u8x8)
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#define i8x8_interleave(a,b) _vector_interleave(a,b,i8x8)
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#define u16x4_interleave(a,b) _vector_interleave(a,b,u16x4)
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#define i16x4_interleave(a,b) _vector_interleave(a,b,i16x4)
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#define u32x2_interleave(a,b) _vector_interleave(a,b,u32x2)
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#define i32x2_interleave(a,b) _vector_interleave(a,b,i32x2)
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/* Word sized interleaves. */
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#if CLIB_VECTOR_WORD_BITS == 128
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#define u8x_interleave u8x16_interleave
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#define u16x_interleave u16x8_interleave
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#define u32x_interleave u32x4_interleave
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#define u64x_interleave u64x2_interleave
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#endif
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#if CLIB_VECTOR_WORD_BITS == 64
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#define u8x_interleave u8x8_interleave
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#define u16x_interleave u16x4_interleave
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#define u32x_interleave u32x2_interleave
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#define u64x_interleave(a,b)
/* do nothing */
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#endif
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/* Vector word sized shifts. */
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#if CLIB_VECTOR_WORD_BITS == 128
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#define u8x_shift_left u8x16_shift_left
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#define i8x_shift_left i8x16_shift_left
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#define u16x_shift_left u16x8_shift_left
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#define i16x_shift_left i16x8_shift_left
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#define u32x_shift_left u32x4_shift_left
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#define i32x_shift_left i32x4_shift_left
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#define u64x_shift_left u64x2_shift_left
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#define i64x_shift_left i64x2_shift_left
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#define u8x_shift_right u8x16_shift_right
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#define i8x_shift_right i8x16_shift_right
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#define u16x_shift_right u16x8_shift_right
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#define i16x_shift_right i16x8_shift_right
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#define u32x_shift_right u32x4_shift_right
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#define i32x_shift_right i32x4_shift_right
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#define u64x_shift_right u64x2_shift_right
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#define i64x_shift_right i64x2_shift_right
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#define u8x_rotate_left u8x16_rotate_left
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#define i8x_rotate_left i8x16_rotate_left
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#define u16x_rotate_left u16x8_rotate_left
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#define i16x_rotate_left i16x8_rotate_left
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#define u32x_rotate_left u32x4_rotate_left
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#define i32x_rotate_left i32x4_rotate_left
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#define u64x_rotate_left u64x2_rotate_left
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#define i64x_rotate_left i64x2_rotate_left
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#define u8x_rotate_right u8x16_rotate_right
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#define i8x_rotate_right i8x16_rotate_right
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#define u16x_rotate_right u16x8_rotate_right
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#define i16x_rotate_right i16x8_rotate_right
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#define u32x_rotate_right u32x4_rotate_right
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#define i32x_rotate_right i32x4_rotate_right
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#define u64x_rotate_right u64x2_rotate_right
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#define i64x_rotate_right i64x2_rotate_right
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#define u8x_ishift_left u8x16_ishift_left
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#define i8x_ishift_left i8x16_ishift_left
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#define u16x_ishift_left u16x8_ishift_left
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#define i16x_ishift_left i16x8_ishift_left
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#define u32x_ishift_left u32x4_ishift_left
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#define i32x_ishift_left i32x4_ishift_left
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#define u64x_ishift_left u64x2_ishift_left
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#define i64x_ishift_left i64x2_ishift_left
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#define u8x_ishift_right u8x16_ishift_right
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#define i8x_ishift_right i8x16_ishift_right
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#define u16x_ishift_right u16x8_ishift_right
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#define i16x_ishift_right i16x8_ishift_right
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#define u32x_ishift_right u32x4_ishift_right
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#define i32x_ishift_right i32x4_ishift_right
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#define u64x_ishift_right u64x2_ishift_right
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#define i64x_ishift_right i64x2_ishift_right
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#define u8x_irotate_left u8x16_irotate_left
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#define i8x_irotate_left i8x16_irotate_left
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#define u16x_irotate_left u16x8_irotate_left
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#define i16x_irotate_left i16x8_irotate_left
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#define u32x_irotate_left u32x4_irotate_left
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#define i32x_irotate_left i32x4_irotate_left
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#define u64x_irotate_left u64x2_irotate_left
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#define i64x_irotate_left i64x2_irotate_left
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#define u8x_irotate_right u8x16_irotate_right
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#define i8x_irotate_right i8x16_irotate_right
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#define u16x_irotate_right u16x8_irotate_right
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#define i16x_irotate_right i16x8_irotate_right
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#define u32x_irotate_right u32x4_irotate_right
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#define i32x_irotate_right i32x4_irotate_right
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#define u64x_irotate_right u64x2_irotate_right
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#define i64x_irotate_right i64x2_irotate_right
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#endif
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#if CLIB_VECTOR_WORD_BITS == 64
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#define u8x_shift_left u8x8_shift_left
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#define i8x_shift_left i8x8_shift_left
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#define u16x_shift_left u16x4_shift_left
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#define i16x_shift_left i16x4_shift_left
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#define u32x_shift_left u32x2_shift_left
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#define i32x_shift_left i32x2_shift_left
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#define u8x_shift_right u8x8_shift_right
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#define i8x_shift_right i8x8_shift_right
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#define u16x_shift_right u16x4_shift_right
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#define i16x_shift_right i16x4_shift_right
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#define u32x_shift_right u32x2_shift_right
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#define i32x_shift_right i32x2_shift_right
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#define u8x_rotate_left u8x8_rotate_left
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#define i8x_rotate_left i8x8_rotate_left
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#define u16x_rotate_left u16x4_rotate_left
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#define i16x_rotate_left i16x4_rotate_left
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#define u32x_rotate_left u32x2_rotate_left
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#define i32x_rotate_left i32x2_rotate_left
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#define u8x_rotate_right u8x8_rotate_right
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#define i8x_rotate_right i8x8_rotate_right
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#define u16x_rotate_right u16x4_rotate_right
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#define i16x_rotate_right i16x4_rotate_right
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#define u32x_rotate_right u32x2_rotate_right
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#define i32x_rotate_right i32x2_rotate_right
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#define u8x_ishift_left u8x8_ishift_left
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#define i8x_ishift_left i8x8_ishift_left
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#define u16x_ishift_left u16x4_ishift_left
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#define i16x_ishift_left i16x4_ishift_left
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#define u32x_ishift_left u32x2_ishift_left
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#define i32x_ishift_left i32x2_ishift_left
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#define u8x_ishift_right u8x8_ishift_right
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#define i8x_ishift_right i8x8_ishift_right
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#define u16x_ishift_right u16x4_ishift_right
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#define i16x_ishift_right i16x4_ishift_right
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#define u32x_ishift_right u32x2_ishift_right
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#define i32x_ishift_right i32x2_ishift_right
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#define u8x_irotate_left u8x8_irotate_left
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#define i8x_irotate_left i8x8_irotate_left
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#define u16x_irotate_left u16x4_irotate_left
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#define i16x_irotate_left i16x4_irotate_left
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#define u32x_irotate_left u32x2_irotate_left
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#define i32x_irotate_left i32x2_irotate_left
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#define u8x_irotate_right u8x8_irotate_right
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#define i8x_irotate_right i8x8_irotate_right
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#define u16x_irotate_right u16x4_irotate_right
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#define i16x_irotate_right i16x4_irotate_right
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#define u32x_irotate_right u32x2_irotate_right
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#define i32x_irotate_right i32x2_irotate_right
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#endif
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#if CLIB_VECTOR_WORD_BITS == 128
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#define u8x_splat u8x16_splat
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#define i8x_splat i8x16_splat
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#define u16x_splat u16x8_splat
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#define i16x_splat i16x8_splat
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#define u32x_splat u32x4_splat
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#define i32x_splat i32x4_splat
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#define u64x_splat u64x2_splat
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#define i64x_splat i64x2_splat
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#endif
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#if CLIB_VECTOR_WORD_BITS == 64
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#define u8x_splat u8x8_splat
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#define i8x_splat i8x8_splat
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#define u16x_splat u16x4_splat
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#define i16x_splat i16x4_splat
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#define u32x_splat u32x2_splat
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#define i32x_splat i32x2_splat
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#endif
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#define u32x4_transpose_step(x,y) \
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do { \
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u32x4 _x = (x); \
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u32x4 _y = (y); \
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(x) = u32x4_interleave_lo (_x, _y); \
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(y) = u32x4_interleave_hi (_x, _y); \
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} while (0)
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/* 4x4 transpose: x_ij -> x_ji */
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#define u32x4_transpose(x0,x1,x2,x3) \
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do { \
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u32x4 _x0 = (u32x4) (x0); \
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u32x4 _x1 = (u32x4) (x1); \
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u32x4 _x2 = (u32x4) (x2); \
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u32x4 _x3 = (u32x4) (x3); \
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u32x4_transpose_step (_x0, _x2); \
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u32x4_transpose_step (_x1, _x3); \
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u32x4_transpose_step (_x0, _x1); \
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u32x4_transpose_step (_x2, _x3); \
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(x0) = (u32x4) _x0; \
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(x1) = (u32x4) _x1; \
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(x2) = (u32x4) _x2; \
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(x3) = (u32x4) _x3; \
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} while (0)
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#define i32x4_transpose(x0,x1,x2,x3) \
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do { \
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u32x4 _x0 = (u32x4) (x0); \
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u32x4 _x1 = (u32x4) (x1); \
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u32x4 _x2 = (u32x4) (x2); \
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u32x4 _x3 = (u32x4) (x3); \
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u32x4_transpose_step (_x0, _x2); \
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u32x4_transpose_step (_x1, _x3); \
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u32x4_transpose_step (_x0, _x1); \
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u32x4_transpose_step (_x2, _x3); \
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(x0) = (i32x4) _x0; \
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(x1) = (i32x4) _x1; \
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(x2) = (i32x4) _x2; \
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(x3) = (i32x4) _x3; \
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} while (0)
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#undef _
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#endif
/* included_vector_funcs_h */
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/*
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* fd.io coding-style-patch-verification: ON
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*
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* Local Variables:
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* eval: (c-set-style "gnu")
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* End:
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*/
byte_order.h
src
vppinfra
vector_funcs.h
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