/* * Copyright (c) 2014 The WebM project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #include #include "./vpx_config.h" #include "./vpx_dsp_rtcd.h" #include "mem_neon.h" #include "sum_neon.h" #include "vpx/vpx_integer.h" //------------------------------------------------------------------------------ // DC 4x4 static INLINE uint16_t dc_sum_4(const uint8_t *ref) { return horizontal_add_uint8x4(load_unaligned_u8_4x1(ref)); } static INLINE void dc_store_4x4(uint8_t *dst, ptrdiff_t stride, const uint8x8_t dc) { int i; for (i = 0; i < 4; ++i, dst += stride) { vst1_lane_u32((uint32_t *)dst, vreinterpret_u32_u8(dc), 0); } } void vpx_dc_predictor_4x4_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x8_t a = load_unaligned_u8_4x1(above); const uint8x8_t l = load_unaligned_u8_4x1(left); const uint16x4_t al = vget_low_u16(vaddl_u8(a, l)); const uint16_t sum = horizontal_add_uint16x4(al); const uint8x8_t dc = vrshrn_n_u16(vdupq_n_u16(sum), 3); dc_store_4x4(dst, stride, dc); } void vpx_dc_left_predictor_4x4_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint16_t sum = dc_sum_4(left); const uint8x8_t dc = vrshrn_n_u16(vdupq_n_u16(sum), 2); (void)above; dc_store_4x4(dst, stride, dc); } void vpx_dc_top_predictor_4x4_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint16_t sum = dc_sum_4(above); const uint8x8_t dc = vrshrn_n_u16(vdupq_n_u16(sum), 2); (void)left; dc_store_4x4(dst, stride, dc); } void vpx_dc_128_predictor_4x4_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x8_t dc = vdup_n_u8(0x80); (void)above; (void)left; dc_store_4x4(dst, stride, dc); } //------------------------------------------------------------------------------ // DC 8x8 static INLINE uint16_t dc_sum_8(const uint8_t *ref) { return horizontal_add_uint8x8(vld1_u8(ref)); } static INLINE void dc_store_8x8(uint8_t *dst, ptrdiff_t stride, const uint8x8_t dc) { int i; for (i = 0; i < 8; ++i, dst += stride) { vst1_u8(dst, dc); } } void vpx_dc_predictor_8x8_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x8_t above_u8 = vld1_u8(above); const uint8x8_t left_u8 = vld1_u8(left); const uint16x8_t al = vaddl_u8(above_u8, left_u8); const uint16_t sum = horizontal_add_uint16x8(al); const uint8x8_t dc = vrshrn_n_u16(vdupq_n_u16(sum), 4); dc_store_8x8(dst, stride, dc); } void vpx_dc_left_predictor_8x8_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint16_t sum = dc_sum_8(left); const uint8x8_t dc = vrshrn_n_u16(vdupq_n_u16(sum), 3); (void)above; dc_store_8x8(dst, stride, dc); } void vpx_dc_top_predictor_8x8_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint16_t sum = dc_sum_8(above); const uint8x8_t dc = vrshrn_n_u16(vdupq_n_u16(sum), 3); (void)left; dc_store_8x8(dst, stride, dc); } void vpx_dc_128_predictor_8x8_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x8_t dc = vdup_n_u8(0x80); (void)above; (void)left; dc_store_8x8(dst, stride, dc); } //------------------------------------------------------------------------------ // DC 16x16 static INLINE uint16_t dc_sum_16(const uint8_t *ref) { return horizontal_add_uint8x16(vld1q_u8(ref)); } static INLINE void dc_store_16x16(uint8_t *dst, ptrdiff_t stride, const uint8x16_t dc) { int i; for (i = 0; i < 16; ++i, dst += stride) { vst1q_u8(dst + 0, dc); } } void vpx_dc_predictor_16x16_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x16_t ref0 = vld1q_u8(above); const uint8x16_t ref1 = vld1q_u8(left); const uint16x8_t a = vpaddlq_u8(ref0); const uint16x8_t l = vpaddlq_u8(ref1); const uint16x8_t al = vaddq_u16(a, l); const uint16_t sum = horizontal_add_uint16x8(al); const uint8x16_t dc = vdupq_lane_u8(vrshrn_n_u16(vdupq_n_u16(sum), 5), 0); dc_store_16x16(dst, stride, dc); } void vpx_dc_left_predictor_16x16_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint16_t sum = dc_sum_16(left); const uint8x16_t dc = vdupq_lane_u8(vrshrn_n_u16(vdupq_n_u16(sum), 4), 0); (void)above; dc_store_16x16(dst, stride, dc); } void vpx_dc_top_predictor_16x16_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint16_t sum = dc_sum_16(above); const uint8x16_t dc = vdupq_lane_u8(vrshrn_n_u16(vdupq_n_u16(sum), 4), 0); (void)left; dc_store_16x16(dst, stride, dc); } void vpx_dc_128_predictor_16x16_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x16_t dc = vdupq_n_u8(0x80); (void)above; (void)left; dc_store_16x16(dst, stride, dc); } //------------------------------------------------------------------------------ // DC 32x32 static INLINE uint16_t dc_sum_32(const uint8_t *ref) { const uint8x16_t r0 = vld1q_u8(ref + 0); const uint8x16_t r1 = vld1q_u8(ref + 16); const uint16x8_t r01 = vaddq_u16(vpaddlq_u8(r0), vpaddlq_u8(r1)); return horizontal_add_uint16x8(r01); } static INLINE void dc_store_32x32(uint8_t *dst, ptrdiff_t stride, const uint8x16_t dc) { int i; for (i = 0; i < 32; ++i, dst += stride) { vst1q_u8(dst + 0, dc); vst1q_u8(dst + 16, dc); } } void vpx_dc_predictor_32x32_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x16_t a0 = vld1q_u8(above + 0); const uint8x16_t a1 = vld1q_u8(above + 16); const uint8x16_t l0 = vld1q_u8(left + 0); const uint8x16_t l1 = vld1q_u8(left + 16); const uint16x8_t a01 = vaddq_u16(vpaddlq_u8(a0), vpaddlq_u8(a1)); const uint16x8_t l01 = vaddq_u16(vpaddlq_u8(l0), vpaddlq_u8(l1)); const uint16x8_t al = vaddq_u16(a01, l01); const uint16_t sum = horizontal_add_uint16x8(al); const uint8x16_t dc = vdupq_lane_u8(vrshrn_n_u16(vdupq_n_u16(sum), 6), 0); dc_store_32x32(dst, stride, dc); } void vpx_dc_left_predictor_32x32_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint16_t sum = dc_sum_32(left); const uint8x16_t dc = vdupq_lane_u8(vrshrn_n_u16(vdupq_n_u16(sum), 5), 0); (void)above; dc_store_32x32(dst, stride, dc); } void vpx_dc_top_predictor_32x32_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint16_t sum = dc_sum_32(above); const uint8x16_t dc = vdupq_lane_u8(vrshrn_n_u16(vdupq_n_u16(sum), 5), 0); (void)left; dc_store_32x32(dst, stride, dc); } void vpx_dc_128_predictor_32x32_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x16_t dc = vdupq_n_u8(0x80); (void)above; (void)left; dc_store_32x32(dst, stride, dc); } // ----------------------------------------------------------------------------- void vpx_d45_predictor_4x4_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { uint8x8_t a0, a1, a2, d0; uint8_t a7; (void)left; a0 = vld1_u8(above); a7 = above[7]; // [ above[1], ..., above[6], x, x ] a1 = vext_u8(a0, a0, 1); // [ above[2], ..., above[7], x, x ] a2 = vext_u8(a0, a0, 2); // d0[0] = AVG3(above[0], above[1], above[2]); // ... // d0[5] = AVG3(above[5], above[6], above[7]); // d0[6] = x (don't care) // d0[7] = x (don't care) d0 = vrhadd_u8(vhadd_u8(a0, a2), a1); // We want: // stride=0 [ d0[0], d0[1], d0[2], d0[3] ] // stride=1 [ d0[1], d0[2], d0[3], d0[4] ] // stride=2 [ d0[2], d0[3], d0[4], d0[5] ] // stride=2 [ d0[3], d0[4], d0[5], above[7] ] store_u8_4x1(dst + 0 * stride, d0); store_u8_4x1(dst + 1 * stride, vext_u8(d0, d0, 1)); store_u8_4x1(dst + 2 * stride, vext_u8(d0, d0, 2)); store_u8_4x1(dst + 3 * stride, vext_u8(d0, d0, 3)); // We stored d0[6] above, so fixup into above[7]. dst[3 * stride + 3] = a7; } void vpx_d45_predictor_8x8_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { uint8x8_t ax0, a0, a1, a7, d0; (void)left; a0 = vld1_u8(above + 0); a1 = vld1_u8(above + 1); a7 = vld1_dup_u8(above + 7); // We want to calculate the AVG3 result in lanes 1-7 inclusive so we can // shift in above[7] later, so shift a0 across by one to get the right // inputs: // [ x, above[0], ... , above[6] ] ax0 = vext_u8(a0, a0, 7); // d0[0] = x (don't care) // d0[1] = AVG3(above[0], above[1], above[2]); // ... // d0[7] = AVG3(above[6], above[7], above[8]); d0 = vrhadd_u8(vhadd_u8(ax0, a1), a0); // Undo the earlier ext, incrementally shift in duplicates of above[7]. vst1_u8(dst + 0 * stride, vext_u8(d0, a7, 1)); vst1_u8(dst + 1 * stride, vext_u8(d0, a7, 2)); vst1_u8(dst + 2 * stride, vext_u8(d0, a7, 3)); vst1_u8(dst + 3 * stride, vext_u8(d0, a7, 4)); vst1_u8(dst + 4 * stride, vext_u8(d0, a7, 5)); vst1_u8(dst + 5 * stride, vext_u8(d0, a7, 6)); vst1_u8(dst + 6 * stride, vext_u8(d0, a7, 7)); vst1_u8(dst + 7 * stride, a7); } void vpx_d45_predictor_16x16_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { uint8x16_t ax0, a0, a1, a15, d0; (void)left; a0 = vld1q_u8(above + 0); a1 = vld1q_u8(above + 1); a15 = vld1q_dup_u8(above + 15); // We want to calculate the AVG3 result in lanes 1-15 inclusive so we can // shift in above[15] later, so shift a0 across by one to get the right // inputs: // [ x, above[0], ... , above[14] ] ax0 = vextq_u8(a0, a0, 15); // d0[0] = x (don't care) // d0[1] = AVG3(above[0], above[1], above[2]); // ... // d0[15] = AVG3(above[14], above[15], above[16]); d0 = vrhaddq_u8(vhaddq_u8(ax0, a1), a0); // Undo the earlier ext, incrementally shift in duplicates of above[15]. vst1q_u8(dst + 0 * stride, vextq_u8(d0, a15, 1)); vst1q_u8(dst + 1 * stride, vextq_u8(d0, a15, 2)); vst1q_u8(dst + 2 * stride, vextq_u8(d0, a15, 3)); vst1q_u8(dst + 3 * stride, vextq_u8(d0, a15, 4)); vst1q_u8(dst + 4 * stride, vextq_u8(d0, a15, 5)); vst1q_u8(dst + 5 * stride, vextq_u8(d0, a15, 6)); vst1q_u8(dst + 6 * stride, vextq_u8(d0, a15, 7)); vst1q_u8(dst + 7 * stride, vextq_u8(d0, a15, 8)); vst1q_u8(dst + 8 * stride, vextq_u8(d0, a15, 9)); vst1q_u8(dst + 9 * stride, vextq_u8(d0, a15, 10)); vst1q_u8(dst + 10 * stride, vextq_u8(d0, a15, 11)); vst1q_u8(dst + 11 * stride, vextq_u8(d0, a15, 12)); vst1q_u8(dst + 12 * stride, vextq_u8(d0, a15, 13)); vst1q_u8(dst + 13 * stride, vextq_u8(d0, a15, 14)); vst1q_u8(dst + 14 * stride, vextq_u8(d0, a15, 15)); vst1q_u8(dst + 15 * stride, a15); } void vpx_d45_predictor_32x32_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { uint8x16_t ax0, a0, a1, a15, a16, a17, a31, d0[2]; (void)left; a0 = vld1q_u8(above + 0); a1 = vld1q_u8(above + 1); a15 = vld1q_u8(above + 15); a16 = vld1q_u8(above + 16); a17 = vld1q_u8(above + 17); a31 = vld1q_dup_u8(above + 31); // We want to calculate the AVG3 result in lanes 1-15 inclusive so we can // shift in above[15] later, so shift a0 across by one to get the right // inputs: // [ x, above[0], ... , above[14] ] ax0 = vextq_u8(a0, a0, 15); // d0[0] = x (don't care) // d0[1] = AVG3(above[0], above[1], above[2]); // ... // d0[15] = AVG3(above[14], above[15], above[16]); d0[0] = vrhaddq_u8(vhaddq_u8(ax0, a1), a0); d0[1] = vrhaddq_u8(vhaddq_u8(a15, a17), a16); // Undo the earlier ext, incrementally shift in duplicates of above[15]. vst1q_u8(dst + 0 * stride + 0, vextq_u8(d0[0], d0[1], 1)); vst1q_u8(dst + 0 * stride + 16, vextq_u8(d0[1], a31, 1)); vst1q_u8(dst + 1 * stride + 0, vextq_u8(d0[0], d0[1], 2)); vst1q_u8(dst + 1 * stride + 16, vextq_u8(d0[1], a31, 2)); vst1q_u8(dst + 2 * stride + 0, vextq_u8(d0[0], d0[1], 3)); vst1q_u8(dst + 2 * stride + 16, vextq_u8(d0[1], a31, 3)); vst1q_u8(dst + 3 * stride + 0, vextq_u8(d0[0], d0[1], 4)); vst1q_u8(dst + 3 * stride + 16, vextq_u8(d0[1], a31, 4)); vst1q_u8(dst + 4 * stride + 0, vextq_u8(d0[0], d0[1], 5)); vst1q_u8(dst + 4 * stride + 16, vextq_u8(d0[1], a31, 5)); vst1q_u8(dst + 5 * stride + 0, vextq_u8(d0[0], d0[1], 6)); vst1q_u8(dst + 5 * stride + 16, vextq_u8(d0[1], a31, 6)); vst1q_u8(dst + 6 * stride + 0, vextq_u8(d0[0], d0[1], 7)); vst1q_u8(dst + 6 * stride + 16, vextq_u8(d0[1], a31, 7)); vst1q_u8(dst + 7 * stride + 0, vextq_u8(d0[0], d0[1], 8)); vst1q_u8(dst + 7 * stride + 16, vextq_u8(d0[1], a31, 8)); vst1q_u8(dst + 8 * stride + 0, vextq_u8(d0[0], d0[1], 9)); vst1q_u8(dst + 8 * stride + 16, vextq_u8(d0[1], a31, 9)); vst1q_u8(dst + 9 * stride + 0, vextq_u8(d0[0], d0[1], 10)); vst1q_u8(dst + 9 * stride + 16, vextq_u8(d0[1], a31, 10)); vst1q_u8(dst + 10 * stride + 0, vextq_u8(d0[0], d0[1], 11)); vst1q_u8(dst + 10 * stride + 16, vextq_u8(d0[1], a31, 11)); vst1q_u8(dst + 11 * stride + 0, vextq_u8(d0[0], d0[1], 12)); vst1q_u8(dst + 11 * stride + 16, vextq_u8(d0[1], a31, 12)); vst1q_u8(dst + 12 * stride + 0, vextq_u8(d0[0], d0[1], 13)); vst1q_u8(dst + 12 * stride + 16, vextq_u8(d0[1], a31, 13)); vst1q_u8(dst + 13 * stride + 0, vextq_u8(d0[0], d0[1], 14)); vst1q_u8(dst + 13 * stride + 16, vextq_u8(d0[1], a31, 14)); vst1q_u8(dst + 14 * stride + 0, vextq_u8(d0[0], d0[1], 15)); vst1q_u8(dst + 14 * stride + 16, vextq_u8(d0[1], a31, 15)); vst1q_u8(dst + 15 * stride + 0, d0[1]); vst1q_u8(dst + 15 * stride + 16, a31); vst1q_u8(dst + 16 * stride + 0, vextq_u8(d0[1], a31, 1)); vst1q_u8(dst + 16 * stride + 16, a31); vst1q_u8(dst + 17 * stride + 0, vextq_u8(d0[1], a31, 2)); vst1q_u8(dst + 17 * stride + 16, a31); vst1q_u8(dst + 18 * stride + 0, vextq_u8(d0[1], a31, 3)); vst1q_u8(dst + 18 * stride + 16, a31); vst1q_u8(dst + 19 * stride + 0, vextq_u8(d0[1], a31, 4)); vst1q_u8(dst + 19 * stride + 16, a31); vst1q_u8(dst + 20 * stride + 0, vextq_u8(d0[1], a31, 5)); vst1q_u8(dst + 20 * stride + 16, a31); vst1q_u8(dst + 21 * stride + 0, vextq_u8(d0[1], a31, 6)); vst1q_u8(dst + 21 * stride + 16, a31); vst1q_u8(dst + 22 * stride + 0, vextq_u8(d0[1], a31, 7)); vst1q_u8(dst + 22 * stride + 16, a31); vst1q_u8(dst + 23 * stride + 0, vextq_u8(d0[1], a31, 8)); vst1q_u8(dst + 23 * stride + 16, a31); vst1q_u8(dst + 24 * stride + 0, vextq_u8(d0[1], a31, 9)); vst1q_u8(dst + 24 * stride + 16, a31); vst1q_u8(dst + 25 * stride + 0, vextq_u8(d0[1], a31, 10)); vst1q_u8(dst + 25 * stride + 16, a31); vst1q_u8(dst + 26 * stride + 0, vextq_u8(d0[1], a31, 11)); vst1q_u8(dst + 26 * stride + 16, a31); vst1q_u8(dst + 27 * stride + 0, vextq_u8(d0[1], a31, 12)); vst1q_u8(dst + 27 * stride + 16, a31); vst1q_u8(dst + 28 * stride + 0, vextq_u8(d0[1], a31, 13)); vst1q_u8(dst + 28 * stride + 16, a31); vst1q_u8(dst + 29 * stride + 0, vextq_u8(d0[1], a31, 14)); vst1q_u8(dst + 29 * stride + 16, a31); vst1q_u8(dst + 30 * stride + 0, vextq_u8(d0[1], a31, 15)); vst1q_u8(dst + 30 * stride + 16, a31); vst1q_u8(dst + 31 * stride + 0, a31); vst1q_u8(dst + 31 * stride + 16, a31); } // ----------------------------------------------------------------------------- void vpx_d63_predictor_4x4_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { uint8x8_t a0, a1, a2, a3, d0, d1, d2, d3; (void)left; a0 = load_unaligned_u8_4x1(above + 0); a1 = load_unaligned_u8_4x1(above + 1); a2 = load_unaligned_u8_4x1(above + 2); a3 = load_unaligned_u8_4x1(above + 3); d0 = vrhadd_u8(a0, a1); d1 = vrhadd_u8(vhadd_u8(a0, a2), a1); d2 = vrhadd_u8(a1, a2); d3 = vrhadd_u8(vhadd_u8(a1, a3), a2); store_u8_4x1(dst + 0 * stride, d0); store_u8_4x1(dst + 1 * stride, d1); store_u8_4x1(dst + 2 * stride, d2); store_u8_4x1(dst + 3 * stride, d3); } void vpx_d63_predictor_8x8_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { uint8x8_t a0, a1, a2, a7, d0, d1; (void)left; a0 = vld1_u8(above + 0); a1 = vld1_u8(above + 1); a2 = vld1_u8(above + 2); a7 = vld1_dup_u8(above + 7); d0 = vrhadd_u8(a0, a1); d1 = vrhadd_u8(vhadd_u8(a0, a2), a1); vst1_u8(dst + 0 * stride, d0); vst1_u8(dst + 1 * stride, d1); d0 = vext_u8(d0, d0, 7); d1 = vext_u8(d1, d1, 7); vst1_u8(dst + 2 * stride, vext_u8(d0, a7, 2)); vst1_u8(dst + 3 * stride, vext_u8(d1, a7, 2)); vst1_u8(dst + 4 * stride, vext_u8(d0, a7, 3)); vst1_u8(dst + 5 * stride, vext_u8(d1, a7, 3)); vst1_u8(dst + 6 * stride, vext_u8(d0, a7, 4)); vst1_u8(dst + 7 * stride, vext_u8(d1, a7, 4)); } void vpx_d63_predictor_16x16_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { uint8x16_t a0, a1, a2, a15, d0, d1; (void)left; a0 = vld1q_u8(above + 0); a1 = vld1q_u8(above + 1); a2 = vld1q_u8(above + 2); a15 = vld1q_dup_u8(above + 15); d0 = vrhaddq_u8(a0, a1); d1 = vrhaddq_u8(vhaddq_u8(a0, a2), a1); vst1q_u8(dst + 0 * stride, d0); vst1q_u8(dst + 1 * stride, d1); d0 = vextq_u8(d0, d0, 15); d1 = vextq_u8(d1, d1, 15); vst1q_u8(dst + 2 * stride, vextq_u8(d0, a15, 2)); vst1q_u8(dst + 3 * stride, vextq_u8(d1, a15, 2)); vst1q_u8(dst + 4 * stride, vextq_u8(d0, a15, 3)); vst1q_u8(dst + 5 * stride, vextq_u8(d1, a15, 3)); vst1q_u8(dst + 6 * stride, vextq_u8(d0, a15, 4)); vst1q_u8(dst + 7 * stride, vextq_u8(d1, a15, 4)); vst1q_u8(dst + 8 * stride, vextq_u8(d0, a15, 5)); vst1q_u8(dst + 9 * stride, vextq_u8(d1, a15, 5)); vst1q_u8(dst + 10 * stride, vextq_u8(d0, a15, 6)); vst1q_u8(dst + 11 * stride, vextq_u8(d1, a15, 6)); vst1q_u8(dst + 12 * stride, vextq_u8(d0, a15, 7)); vst1q_u8(dst + 13 * stride, vextq_u8(d1, a15, 7)); vst1q_u8(dst + 14 * stride, vextq_u8(d0, a15, 8)); vst1q_u8(dst + 15 * stride, vextq_u8(d1, a15, 8)); } void vpx_d63_predictor_32x32_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { uint8x16_t a0, a1, a2, a16, a17, a18, a31, d0_lo, d0_hi, d1_lo, d1_hi; (void)left; a0 = vld1q_u8(above + 0); a1 = vld1q_u8(above + 1); a2 = vld1q_u8(above + 2); a16 = vld1q_u8(above + 16); a17 = vld1q_u8(above + 17); a18 = vld1q_u8(above + 18); a31 = vld1q_dup_u8(above + 31); d0_lo = vrhaddq_u8(a0, a1); d0_hi = vrhaddq_u8(a16, a17); d1_lo = vrhaddq_u8(vhaddq_u8(a0, a2), a1); d1_hi = vrhaddq_u8(vhaddq_u8(a16, a18), a17); vst1q_u8(dst + 0 * stride + 0, d0_lo); vst1q_u8(dst + 0 * stride + 16, d0_hi); vst1q_u8(dst + 1 * stride + 0, d1_lo); vst1q_u8(dst + 1 * stride + 16, d1_hi); d0_hi = vextq_u8(d0_lo, d0_hi, 15); d0_lo = vextq_u8(d0_lo, d0_lo, 15); d1_hi = vextq_u8(d1_lo, d1_hi, 15); d1_lo = vextq_u8(d1_lo, d1_lo, 15); vst1q_u8(dst + 2 * stride + 0, vextq_u8(d0_lo, d0_hi, 2)); vst1q_u8(dst + 2 * stride + 16, vextq_u8(d0_hi, a31, 2)); vst1q_u8(dst + 3 * stride + 0, vextq_u8(d1_lo, d1_hi, 2)); vst1q_u8(dst + 3 * stride + 16, vextq_u8(d1_hi, a31, 2)); vst1q_u8(dst + 4 * stride + 0, vextq_u8(d0_lo, d0_hi, 3)); vst1q_u8(dst + 4 * stride + 16, vextq_u8(d0_hi, a31, 3)); vst1q_u8(dst + 5 * stride + 0, vextq_u8(d1_lo, d1_hi, 3)); vst1q_u8(dst + 5 * stride + 16, vextq_u8(d1_hi, a31, 3)); vst1q_u8(dst + 6 * stride + 0, vextq_u8(d0_lo, d0_hi, 4)); vst1q_u8(dst + 6 * stride + 16, vextq_u8(d0_hi, a31, 4)); vst1q_u8(dst + 7 * stride + 0, vextq_u8(d1_lo, d1_hi, 4)); vst1q_u8(dst + 7 * stride + 16, vextq_u8(d1_hi, a31, 4)); vst1q_u8(dst + 8 * stride + 0, vextq_u8(d0_lo, d0_hi, 5)); vst1q_u8(dst + 8 * stride + 16, vextq_u8(d0_hi, a31, 5)); vst1q_u8(dst + 9 * stride + 0, vextq_u8(d1_lo, d1_hi, 5)); vst1q_u8(dst + 9 * stride + 16, vextq_u8(d1_hi, a31, 5)); vst1q_u8(dst + 10 * stride + 0, vextq_u8(d0_lo, d0_hi, 6)); vst1q_u8(dst + 10 * stride + 16, vextq_u8(d0_hi, a31, 6)); vst1q_u8(dst + 11 * stride + 0, vextq_u8(d1_lo, d1_hi, 6)); vst1q_u8(dst + 11 * stride + 16, vextq_u8(d1_hi, a31, 6)); vst1q_u8(dst + 12 * stride + 0, vextq_u8(d0_lo, d0_hi, 7)); vst1q_u8(dst + 12 * stride + 16, vextq_u8(d0_hi, a31, 7)); vst1q_u8(dst + 13 * stride + 0, vextq_u8(d1_lo, d1_hi, 7)); vst1q_u8(dst + 13 * stride + 16, vextq_u8(d1_hi, a31, 7)); vst1q_u8(dst + 14 * stride + 0, vextq_u8(d0_lo, d0_hi, 8)); vst1q_u8(dst + 14 * stride + 16, vextq_u8(d0_hi, a31, 8)); vst1q_u8(dst + 15 * stride + 0, vextq_u8(d1_lo, d1_hi, 8)); vst1q_u8(dst + 15 * stride + 16, vextq_u8(d1_hi, a31, 8)); vst1q_u8(dst + 16 * stride + 0, vextq_u8(d0_lo, d0_hi, 9)); vst1q_u8(dst + 16 * stride + 16, vextq_u8(d0_hi, a31, 9)); vst1q_u8(dst + 17 * stride + 0, vextq_u8(d1_lo, d1_hi, 9)); vst1q_u8(dst + 17 * stride + 16, vextq_u8(d1_hi, a31, 9)); vst1q_u8(dst + 18 * stride + 0, vextq_u8(d0_lo, d0_hi, 10)); vst1q_u8(dst + 18 * stride + 16, vextq_u8(d0_hi, a31, 10)); vst1q_u8(dst + 19 * stride + 0, vextq_u8(d1_lo, d1_hi, 10)); vst1q_u8(dst + 19 * stride + 16, vextq_u8(d1_hi, a31, 10)); vst1q_u8(dst + 20 * stride + 0, vextq_u8(d0_lo, d0_hi, 11)); vst1q_u8(dst + 20 * stride + 16, vextq_u8(d0_hi, a31, 11)); vst1q_u8(dst + 21 * stride + 0, vextq_u8(d1_lo, d1_hi, 11)); vst1q_u8(dst + 21 * stride + 16, vextq_u8(d1_hi, a31, 11)); vst1q_u8(dst + 22 * stride + 0, vextq_u8(d0_lo, d0_hi, 12)); vst1q_u8(dst + 22 * stride + 16, vextq_u8(d0_hi, a31, 12)); vst1q_u8(dst + 23 * stride + 0, vextq_u8(d1_lo, d1_hi, 12)); vst1q_u8(dst + 23 * stride + 16, vextq_u8(d1_hi, a31, 12)); vst1q_u8(dst + 24 * stride + 0, vextq_u8(d0_lo, d0_hi, 13)); vst1q_u8(dst + 24 * stride + 16, vextq_u8(d0_hi, a31, 13)); vst1q_u8(dst + 25 * stride + 0, vextq_u8(d1_lo, d1_hi, 13)); vst1q_u8(dst + 25 * stride + 16, vextq_u8(d1_hi, a31, 13)); vst1q_u8(dst + 26 * stride + 0, vextq_u8(d0_lo, d0_hi, 14)); vst1q_u8(dst + 26 * stride + 16, vextq_u8(d0_hi, a31, 14)); vst1q_u8(dst + 27 * stride + 0, vextq_u8(d1_lo, d1_hi, 14)); vst1q_u8(dst + 27 * stride + 16, vextq_u8(d1_hi, a31, 14)); vst1q_u8(dst + 28 * stride + 0, vextq_u8(d0_lo, d0_hi, 15)); vst1q_u8(dst + 28 * stride + 16, vextq_u8(d0_hi, a31, 15)); vst1q_u8(dst + 29 * stride + 0, vextq_u8(d1_lo, d1_hi, 15)); vst1q_u8(dst + 29 * stride + 16, vextq_u8(d1_hi, a31, 15)); vst1q_u8(dst + 30 * stride + 0, d0_hi); vst1q_u8(dst + 30 * stride + 16, a31); vst1q_u8(dst + 31 * stride + 0, d1_hi); vst1q_u8(dst + 31 * stride + 16, a31); } // ----------------------------------------------------------------------------- void vpx_d117_predictor_4x4_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { // See vpx_d117_predictor_8x8_neon for more details on the implementation. uint8x8_t az, a0, l0az, d0, d1, d2, d3, col0, col1; az = load_unaligned_u8_4x1(above - 1); a0 = load_unaligned_u8_4x1(above + 0); // [ left[0], above[-1], above[0], above[1], x, x, x, x ] l0az = vext_u8(vld1_dup_u8(left), az, 7); col0 = vdup_n_u8((above[-1] + 2 * left[0] + left[1] + 2) >> 2); col1 = vdup_n_u8((left[0] + 2 * left[1] + left[2] + 2) >> 2); d0 = vrhadd_u8(az, a0); d1 = vrhadd_u8(vhadd_u8(l0az, a0), az); d2 = vext_u8(col0, d0, 7); d3 = vext_u8(col1, d1, 7); store_u8_4x1(dst + 0 * stride, d0); store_u8_4x1(dst + 1 * stride, d1); store_u8_4x1(dst + 2 * stride, d2); store_u8_4x1(dst + 3 * stride, d3); } void vpx_d117_predictor_8x8_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { uint8x8_t az, a0, l0az, d0, d1, l0, l1, azl0, col0, col0_even, col0_odd; az = vld1_u8(above - 1); a0 = vld1_u8(above + 0); // [ left[0], above[-1], ... , above[5] ] l0az = vext_u8(vld1_dup_u8(left), az, 7); l0 = vld1_u8(left + 0); // The last lane here is unused, reading left[8] could cause a buffer // over-read, so just fill with a duplicate of left[0] to avoid needing to // materialize a zero: // [ left[1], ... , left[7], x ] l1 = vext_u8(l0, l0, 1); // [ above[-1], left[0], ... , left[6] ] azl0 = vext_u8(vld1_dup_u8(above - 1), l0, 7); // d0[0] = AVG2(above[-1], above[0]) // d0[1] = AVG2(above[0], above[1]) // ... // d0[7] = AVG2(above[6], above[7]) d0 = vrhadd_u8(az, a0); // d1[0] = AVG3(left[0], above[-1], above[0]) // d1[1] = AVG3(above[-1], above[0], above[1]) // ... // d1[7] = AVG3(above[5], above[6], above[7]) d1 = vrhadd_u8(vhadd_u8(l0az, a0), az); // The ext instruction shifts elements in from the end of the vector rather // than the start, so reverse the vector to put the elements to be shifted in // at the end. The lowest two lanes here are unused: // col0[7] = AVG3(above[-1], left[0], left[1]) // col0[6] = AVG3(left[0], left[1], left[2]) // ... // col0[2] = AVG3(left[4], left[5], left[6]) // col0[1] = x (don't care) // col0[0] = x (don't care) col0 = vrev64_u8(vrhadd_u8(vhadd_u8(azl0, l1), l0)); // We don't care about the first parameter to this uzp since we only ever use // the high three elements, we just use col0 again since it is already // available: // col0_even = [ x, x, x, x, x, col0[3], col0[5], col0[7] ] // col0_odd = [ x, x, x, x, x, col0[2], col0[4], col0[6] ] col0_even = vuzp_u8(col0, col0).val[1]; col0_odd = vuzp_u8(col0, col0).val[0]; // Incrementally shift more elements from col0 into d0/1: // stride=0 [ d0[0], d0[1], d0[2], d0[3], d0[4], d0[5], d0[6], d0[7] ] // stride=1 [ d1[0], d1[1], d1[2], d1[3], d1[4], d1[5], d1[6], d1[7] ] // stride=2 [ col0[7], d0[0], d0[1], d0[2], d0[3], d0[4], d0[5], d0[6] ] // stride=3 [ col0[6], d1[0], d1[1], d1[2], d1[3], d1[4], d1[5], d1[6] ] // stride=4 [ col0[5], col0[7], d0[0], d0[1], d0[2], d0[3], d0[4], d0[5] ] // stride=5 [ col0[4], col0[6], d1[0], d1[1], d1[2], d1[3], d1[4], d1[5] ] // stride=6 [ col0[3], col0[5], col0[7], d0[0], d0[1], d0[2], d0[3], d0[4] ] // stride=7 [ col0[2], col0[4], col0[6], d1[0], d1[1], d1[2], d1[3], d1[4] ] vst1_u8(dst + 0 * stride, d0); vst1_u8(dst + 1 * stride, d1); vst1_u8(dst + 2 * stride, vext_u8(col0_even, d0, 7)); vst1_u8(dst + 3 * stride, vext_u8(col0_odd, d1, 7)); vst1_u8(dst + 4 * stride, vext_u8(col0_even, d0, 6)); vst1_u8(dst + 5 * stride, vext_u8(col0_odd, d1, 6)); vst1_u8(dst + 6 * stride, vext_u8(col0_even, d0, 5)); vst1_u8(dst + 7 * stride, vext_u8(col0_odd, d1, 5)); } void vpx_d117_predictor_16x16_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { // See vpx_d117_predictor_8x8_neon for more details on the implementation. uint8x16_t az, a0, l0az, d0, d1, l0, l1, azl0, col0, col0_even, col0_odd; az = vld1q_u8(above - 1); a0 = vld1q_u8(above + 0); // [ left[0], above[-1], ... , above[13] ] l0az = vextq_u8(vld1q_dup_u8(left), az, 15); l0 = vld1q_u8(left + 0); // The last lane here is unused, reading left[16] could cause a buffer // over-read, so just fill with a duplicate of left[0] to avoid needing to // materialize a zero: // [ left[1], ... , left[15], x ] l1 = vextq_u8(l0, l0, 1); // [ above[-1], left[0], ... , left[14] ] azl0 = vextq_u8(vld1q_dup_u8(above - 1), l0, 15); d0 = vrhaddq_u8(az, a0); d1 = vrhaddq_u8(vhaddq_u8(l0az, a0), az); col0 = vrhaddq_u8(vhaddq_u8(azl0, l1), l0); col0 = vrev64q_u8(vextq_u8(col0, col0, 8)); // The low nine lanes here are unused so the first input to the uzp is // unused, so just use a duplicate of col0 since we have it already. This // also means that the lowest lane of col0 here is unused. col0_even = vuzpq_u8(col0, col0).val[1]; col0_odd = vuzpq_u8(col0, col0).val[0]; vst1q_u8(dst + 0 * stride, d0); vst1q_u8(dst + 1 * stride, d1); vst1q_u8(dst + 2 * stride, vextq_u8(col0_even, d0, 15)); vst1q_u8(dst + 3 * stride, vextq_u8(col0_odd, d1, 15)); vst1q_u8(dst + 4 * stride, vextq_u8(col0_even, d0, 14)); vst1q_u8(dst + 5 * stride, vextq_u8(col0_odd, d1, 14)); vst1q_u8(dst + 6 * stride, vextq_u8(col0_even, d0, 13)); vst1q_u8(dst + 7 * stride, vextq_u8(col0_odd, d1, 13)); vst1q_u8(dst + 8 * stride, vextq_u8(col0_even, d0, 12)); vst1q_u8(dst + 9 * stride, vextq_u8(col0_odd, d1, 12)); vst1q_u8(dst + 10 * stride, vextq_u8(col0_even, d0, 11)); vst1q_u8(dst + 11 * stride, vextq_u8(col0_odd, d1, 11)); vst1q_u8(dst + 12 * stride, vextq_u8(col0_even, d0, 10)); vst1q_u8(dst + 13 * stride, vextq_u8(col0_odd, d1, 10)); vst1q_u8(dst + 14 * stride, vextq_u8(col0_even, d0, 9)); vst1q_u8(dst + 15 * stride, vextq_u8(col0_odd, d1, 9)); } void vpx_d117_predictor_32x32_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { // See vpx_d117_predictor_8x8_neon for more details on the implementation. uint8x16_t az, a0, a14, a15, a16, l0az, d0_lo, d0_hi, d1_lo, d1_hi, l0, l1, l15, l16, l17, azl0, col0_lo, col0_hi, col0_even, col0_odd; az = vld1q_u8(above - 1); a0 = vld1q_u8(above + 0); a14 = vld1q_u8(above + 14); a15 = vld1q_u8(above + 15); a16 = vld1q_u8(above + 16); // [ left[0], above[-1], ... , above[13] ] l0az = vextq_u8(vld1q_dup_u8(left), az, 15); l0 = vld1q_u8(left + 0); l1 = vld1q_u8(left + 1); l15 = vld1q_u8(left + 15); l16 = vld1q_u8(left + 16); // The last lane here is unused, reading left[32] would cause a buffer // over-read (observed as an address-sanitizer failure), so just fill with a // duplicate of left[16] to avoid needing to materialize a zero: // [ left[17], ... , left[31], x ] l17 = vextq_u8(l16, l16, 1); // [ above[-1], left[0], ... , left[14] ] azl0 = vextq_u8(vld1q_dup_u8(above - 1), l0, 15); d0_lo = vrhaddq_u8(az, a0); d0_hi = vrhaddq_u8(a15, a16); d1_lo = vrhaddq_u8(vhaddq_u8(l0az, a0), az); d1_hi = vrhaddq_u8(vhaddq_u8(a14, a16), a15); // The last lane of col0_hi is unused here. col0_lo = vrhaddq_u8(vhaddq_u8(azl0, l1), l0); col0_hi = vrhaddq_u8(vhaddq_u8(l15, l17), l16); col0_lo = vrev64q_u8(vextq_u8(col0_lo, col0_lo, 8)); col0_hi = vrev64q_u8(vextq_u8(col0_hi, col0_hi, 8)); // The first lane of these are unused since they are only ever called as // ext(col0, _, i) where i >= 1. col0_even = vuzpq_u8(col0_hi, col0_lo).val[1]; col0_odd = vuzpq_u8(col0_hi, col0_lo).val[0]; vst1q_u8(dst + 0 * stride + 0, d0_lo); vst1q_u8(dst + 0 * stride + 16, d0_hi); vst1q_u8(dst + 1 * stride + 0, d1_lo); vst1q_u8(dst + 1 * stride + 16, d1_hi); vst1q_u8(dst + 2 * stride + 0, vextq_u8(col0_even, d0_lo, 15)); vst1q_u8(dst + 2 * stride + 16, vextq_u8(d0_lo, d0_hi, 15)); vst1q_u8(dst + 3 * stride + 0, vextq_u8(col0_odd, d1_lo, 15)); vst1q_u8(dst + 3 * stride + 16, vextq_u8(d1_lo, d1_hi, 15)); vst1q_u8(dst + 4 * stride + 0, vextq_u8(col0_even, d0_lo, 14)); vst1q_u8(dst + 4 * stride + 16, vextq_u8(d0_lo, d0_hi, 14)); vst1q_u8(dst + 5 * stride + 0, vextq_u8(col0_odd, d1_lo, 14)); vst1q_u8(dst + 5 * stride + 16, vextq_u8(d1_lo, d1_hi, 14)); vst1q_u8(dst + 6 * stride + 0, vextq_u8(col0_even, d0_lo, 13)); vst1q_u8(dst + 6 * stride + 16, vextq_u8(d0_lo, d0_hi, 13)); vst1q_u8(dst + 7 * stride + 0, vextq_u8(col0_odd, d1_lo, 13)); vst1q_u8(dst + 7 * stride + 16, vextq_u8(d1_lo, d1_hi, 13)); vst1q_u8(dst + 8 * stride + 0, vextq_u8(col0_even, d0_lo, 12)); vst1q_u8(dst + 8 * stride + 16, vextq_u8(d0_lo, d0_hi, 12)); vst1q_u8(dst + 9 * stride + 0, vextq_u8(col0_odd, d1_lo, 12)); vst1q_u8(dst + 9 * stride + 16, vextq_u8(d1_lo, d1_hi, 12)); vst1q_u8(dst + 10 * stride + 0, vextq_u8(col0_even, d0_lo, 11)); vst1q_u8(dst + 10 * stride + 16, vextq_u8(d0_lo, d0_hi, 11)); vst1q_u8(dst + 11 * stride + 0, vextq_u8(col0_odd, d1_lo, 11)); vst1q_u8(dst + 11 * stride + 16, vextq_u8(d1_lo, d1_hi, 11)); vst1q_u8(dst + 12 * stride + 0, vextq_u8(col0_even, d0_lo, 10)); vst1q_u8(dst + 12 * stride + 16, vextq_u8(d0_lo, d0_hi, 10)); vst1q_u8(dst + 13 * stride + 0, vextq_u8(col0_odd, d1_lo, 10)); vst1q_u8(dst + 13 * stride + 16, vextq_u8(d1_lo, d1_hi, 10)); vst1q_u8(dst + 14 * stride + 0, vextq_u8(col0_even, d0_lo, 9)); vst1q_u8(dst + 14 * stride + 16, vextq_u8(d0_lo, d0_hi, 9)); vst1q_u8(dst + 15 * stride + 0, vextq_u8(col0_odd, d1_lo, 9)); vst1q_u8(dst + 15 * stride + 16, vextq_u8(d1_lo, d1_hi, 9)); vst1q_u8(dst + 16 * stride + 0, vextq_u8(col0_even, d0_lo, 8)); vst1q_u8(dst + 16 * stride + 16, vextq_u8(d0_lo, d0_hi, 8)); vst1q_u8(dst + 17 * stride + 0, vextq_u8(col0_odd, d1_lo, 8)); vst1q_u8(dst + 17 * stride + 16, vextq_u8(d1_lo, d1_hi, 8)); vst1q_u8(dst + 18 * stride + 0, vextq_u8(col0_even, d0_lo, 7)); vst1q_u8(dst + 18 * stride + 16, vextq_u8(d0_lo, d0_hi, 7)); vst1q_u8(dst + 19 * stride + 0, vextq_u8(col0_odd, d1_lo, 7)); vst1q_u8(dst + 19 * stride + 16, vextq_u8(d1_lo, d1_hi, 7)); vst1q_u8(dst + 20 * stride + 0, vextq_u8(col0_even, d0_lo, 6)); vst1q_u8(dst + 20 * stride + 16, vextq_u8(d0_lo, d0_hi, 6)); vst1q_u8(dst + 21 * stride + 0, vextq_u8(col0_odd, d1_lo, 6)); vst1q_u8(dst + 21 * stride + 16, vextq_u8(d1_lo, d1_hi, 6)); vst1q_u8(dst + 22 * stride + 0, vextq_u8(col0_even, d0_lo, 5)); vst1q_u8(dst + 22 * stride + 16, vextq_u8(d0_lo, d0_hi, 5)); vst1q_u8(dst + 23 * stride + 0, vextq_u8(col0_odd, d1_lo, 5)); vst1q_u8(dst + 23 * stride + 16, vextq_u8(d1_lo, d1_hi, 5)); vst1q_u8(dst + 24 * stride + 0, vextq_u8(col0_even, d0_lo, 4)); vst1q_u8(dst + 24 * stride + 16, vextq_u8(d0_lo, d0_hi, 4)); vst1q_u8(dst + 25 * stride + 0, vextq_u8(col0_odd, d1_lo, 4)); vst1q_u8(dst + 25 * stride + 16, vextq_u8(d1_lo, d1_hi, 4)); vst1q_u8(dst + 26 * stride + 0, vextq_u8(col0_even, d0_lo, 3)); vst1q_u8(dst + 26 * stride + 16, vextq_u8(d0_lo, d0_hi, 3)); vst1q_u8(dst + 27 * stride + 0, vextq_u8(col0_odd, d1_lo, 3)); vst1q_u8(dst + 27 * stride + 16, vextq_u8(d1_lo, d1_hi, 3)); vst1q_u8(dst + 28 * stride + 0, vextq_u8(col0_even, d0_lo, 2)); vst1q_u8(dst + 28 * stride + 16, vextq_u8(d0_lo, d0_hi, 2)); vst1q_u8(dst + 29 * stride + 0, vextq_u8(col0_odd, d1_lo, 2)); vst1q_u8(dst + 29 * stride + 16, vextq_u8(d1_lo, d1_hi, 2)); vst1q_u8(dst + 30 * stride + 0, vextq_u8(col0_even, d0_lo, 1)); vst1q_u8(dst + 30 * stride + 16, vextq_u8(d0_lo, d0_hi, 1)); vst1q_u8(dst + 31 * stride + 0, vextq_u8(col0_odd, d1_lo, 1)); vst1q_u8(dst + 31 * stride + 16, vextq_u8(d1_lo, d1_hi, 1)); } // ----------------------------------------------------------------------------- void vpx_d135_predictor_4x4_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x8_t XA0123 = vld1_u8(above - 1); const uint8x8_t L0123 = vld1_u8(left); const uint8x8_t L3210 = vrev64_u8(L0123); const uint8x8_t L3210XA012 = vext_u8(L3210, XA0123, 4); const uint8x8_t L210XA0123 = vext_u8(L3210, XA0123, 5); const uint8x8_t L10XA0123_ = vext_u8(L210XA0123, L210XA0123, 1); const uint8x8_t avg1 = vhadd_u8(L10XA0123_, L3210XA012); const uint8x8_t avg2 = vrhadd_u8(avg1, L210XA0123); store_u8_4x1(dst + 0 * stride, vext_u8(avg2, avg2, 3)); store_u8_4x1(dst + 1 * stride, vext_u8(avg2, avg2, 2)); store_u8_4x1(dst + 2 * stride, vext_u8(avg2, avg2, 1)); store_u8_4x1(dst + 3 * stride, avg2); } void vpx_d135_predictor_8x8_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x8_t XA0123456 = vld1_u8(above - 1); const uint8x8_t A01234567 = vld1_u8(above); const uint8x8_t A1234567_ = vld1_u8(above + 1); const uint8x8_t L01234567 = vld1_u8(left); const uint8x8_t L76543210 = vrev64_u8(L01234567); const uint8x8_t L6543210X = vext_u8(L76543210, XA0123456, 1); const uint8x8_t L543210XA0 = vext_u8(L76543210, XA0123456, 2); const uint8x16_t L76543210XA0123456 = vcombine_u8(L76543210, XA0123456); const uint8x16_t L6543210XA01234567 = vcombine_u8(L6543210X, A01234567); const uint8x16_t L543210XA01234567_ = vcombine_u8(L543210XA0, A1234567_); const uint8x16_t avg = vhaddq_u8(L76543210XA0123456, L543210XA01234567_); const uint8x16_t row = vrhaddq_u8(avg, L6543210XA01234567); vst1_u8(dst + 0 * stride, vget_low_u8(vextq_u8(row, row, 7))); vst1_u8(dst + 1 * stride, vget_low_u8(vextq_u8(row, row, 6))); vst1_u8(dst + 2 * stride, vget_low_u8(vextq_u8(row, row, 5))); vst1_u8(dst + 3 * stride, vget_low_u8(vextq_u8(row, row, 4))); vst1_u8(dst + 4 * stride, vget_low_u8(vextq_u8(row, row, 3))); vst1_u8(dst + 5 * stride, vget_low_u8(vextq_u8(row, row, 2))); vst1_u8(dst + 6 * stride, vget_low_u8(vextq_u8(row, row, 1))); vst1_u8(dst + 7 * stride, vget_low_u8(row)); } static INLINE void d135_store_16x8( uint8_t **dst, const ptrdiff_t stride, const uint8x16_t row_0, const uint8x16_t row_1, const uint8x16_t row_2, const uint8x16_t row_3, const uint8x16_t row_4, const uint8x16_t row_5, const uint8x16_t row_6, const uint8x16_t row_7) { vst1q_u8(*dst, row_0); *dst += stride; vst1q_u8(*dst, row_1); *dst += stride; vst1q_u8(*dst, row_2); *dst += stride; vst1q_u8(*dst, row_3); *dst += stride; vst1q_u8(*dst, row_4); *dst += stride; vst1q_u8(*dst, row_5); *dst += stride; vst1q_u8(*dst, row_6); *dst += stride; vst1q_u8(*dst, row_7); *dst += stride; } void vpx_d135_predictor_16x16_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x16_t XA0123456789abcde = vld1q_u8(above - 1); const uint8x16_t A0123456789abcdef = vld1q_u8(above); const uint8x16_t A123456789abcdef_ = vld1q_u8(above + 1); const uint8x16_t L0123456789abcdef = vld1q_u8(left); const uint8x8_t L76543210 = vrev64_u8(vget_low_u8(L0123456789abcdef)); const uint8x8_t Lfedcba98 = vrev64_u8(vget_high_u8(L0123456789abcdef)); const uint8x16_t Lfedcba9876543210 = vcombine_u8(Lfedcba98, L76543210); const uint8x16_t Ledcba9876543210X = vextq_u8(Lfedcba9876543210, XA0123456789abcde, 1); const uint8x16_t Ldcba9876543210XA0 = vextq_u8(Lfedcba9876543210, XA0123456789abcde, 2); const uint8x16_t avg_0 = vhaddq_u8(Lfedcba9876543210, Ldcba9876543210XA0); const uint8x16_t avg_1 = vhaddq_u8(XA0123456789abcde, A123456789abcdef_); const uint8x16_t row_0 = vrhaddq_u8(avg_0, Ledcba9876543210X); const uint8x16_t row_1 = vrhaddq_u8(avg_1, A0123456789abcdef); const uint8x16_t r_0 = vextq_u8(row_0, row_1, 15); const uint8x16_t r_1 = vextq_u8(row_0, row_1, 14); const uint8x16_t r_2 = vextq_u8(row_0, row_1, 13); const uint8x16_t r_3 = vextq_u8(row_0, row_1, 12); const uint8x16_t r_4 = vextq_u8(row_0, row_1, 11); const uint8x16_t r_5 = vextq_u8(row_0, row_1, 10); const uint8x16_t r_6 = vextq_u8(row_0, row_1, 9); const uint8x16_t r_7 = vextq_u8(row_0, row_1, 8); const uint8x16_t r_8 = vextq_u8(row_0, row_1, 7); const uint8x16_t r_9 = vextq_u8(row_0, row_1, 6); const uint8x16_t r_a = vextq_u8(row_0, row_1, 5); const uint8x16_t r_b = vextq_u8(row_0, row_1, 4); const uint8x16_t r_c = vextq_u8(row_0, row_1, 3); const uint8x16_t r_d = vextq_u8(row_0, row_1, 2); const uint8x16_t r_e = vextq_u8(row_0, row_1, 1); d135_store_16x8(&dst, stride, r_0, r_1, r_2, r_3, r_4, r_5, r_6, r_7); d135_store_16x8(&dst, stride, r_8, r_9, r_a, r_b, r_c, r_d, r_e, row_0); } static INLINE void d135_store_32x2(uint8_t **dst, const ptrdiff_t stride, const uint8x16_t row_0, const uint8x16_t row_1, const uint8x16_t row_2) { uint8_t *dst2 = *dst; vst1q_u8(dst2, row_1); dst2 += 16; vst1q_u8(dst2, row_2); dst2 += 16 * stride - 16; vst1q_u8(dst2, row_0); dst2 += 16; vst1q_u8(dst2, row_1); *dst += stride; } void vpx_d135_predictor_32x32_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x16_t LL0123456789abcdef = vld1q_u8(left + 16); const uint8x16_t LU0123456789abcdef = vld1q_u8(left); const uint8x8_t LL76543210 = vrev64_u8(vget_low_u8(LL0123456789abcdef)); const uint8x8_t LU76543210 = vrev64_u8(vget_low_u8(LU0123456789abcdef)); const uint8x8_t LLfedcba98 = vrev64_u8(vget_high_u8(LL0123456789abcdef)); const uint8x8_t LUfedcba98 = vrev64_u8(vget_high_u8(LU0123456789abcdef)); const uint8x16_t LLfedcba9876543210 = vcombine_u8(LLfedcba98, LL76543210); const uint8x16_t LUfedcba9876543210 = vcombine_u8(LUfedcba98, LU76543210); const uint8x16_t LLedcba9876543210Uf = vextq_u8(LLfedcba9876543210, LUfedcba9876543210, 1); const uint8x16_t LLdcba9876543210Ufe = vextq_u8(LLfedcba9876543210, LUfedcba9876543210, 2); const uint8x16_t avg_0 = vhaddq_u8(LLfedcba9876543210, LLdcba9876543210Ufe); const uint8x16_t row_0 = vrhaddq_u8(avg_0, LLedcba9876543210Uf); const uint8x16_t XAL0123456789abcde = vld1q_u8(above - 1); const uint8x16_t LUedcba9876543210X = vextq_u8(LUfedcba9876543210, XAL0123456789abcde, 1); const uint8x16_t LUdcba9876543210XA0 = vextq_u8(LUfedcba9876543210, XAL0123456789abcde, 2); const uint8x16_t avg_1 = vhaddq_u8(LUfedcba9876543210, LUdcba9876543210XA0); const uint8x16_t row_1 = vrhaddq_u8(avg_1, LUedcba9876543210X); const uint8x16_t AL0123456789abcdef = vld1q_u8(above); const uint8x16_t AL123456789abcdefg = vld1q_u8(above + 1); const uint8x16_t ALfR0123456789abcde = vld1q_u8(above + 15); const uint8x16_t AR0123456789abcdef = vld1q_u8(above + 16); const uint8x16_t AR123456789abcdef_ = vld1q_u8(above + 17); const uint8x16_t avg_2 = vhaddq_u8(XAL0123456789abcde, AL123456789abcdefg); const uint8x16_t row_2 = vrhaddq_u8(avg_2, AL0123456789abcdef); const uint8x16_t avg_3 = vhaddq_u8(ALfR0123456789abcde, AR123456789abcdef_); const uint8x16_t row_3 = vrhaddq_u8(avg_3, AR0123456789abcdef); { const uint8x16_t r_0 = vextq_u8(row_0, row_1, 15); const uint8x16_t r_1 = vextq_u8(row_1, row_2, 15); const uint8x16_t r_2 = vextq_u8(row_2, row_3, 15); d135_store_32x2(&dst, stride, r_0, r_1, r_2); } { const uint8x16_t r_0 = vextq_u8(row_0, row_1, 14); const uint8x16_t r_1 = vextq_u8(row_1, row_2, 14); const uint8x16_t r_2 = vextq_u8(row_2, row_3, 14); d135_store_32x2(&dst, stride, r_0, r_1, r_2); } { const uint8x16_t r_0 = vextq_u8(row_0, row_1, 13); const uint8x16_t r_1 = vextq_u8(row_1, row_2, 13); const uint8x16_t r_2 = vextq_u8(row_2, row_3, 13); d135_store_32x2(&dst, stride, r_0, r_1, r_2); } { const uint8x16_t r_0 = vextq_u8(row_0, row_1, 12); const uint8x16_t r_1 = vextq_u8(row_1, row_2, 12); const uint8x16_t r_2 = vextq_u8(row_2, row_3, 12); d135_store_32x2(&dst, stride, r_0, r_1, r_2); } { const uint8x16_t r_0 = vextq_u8(row_0, row_1, 11); const uint8x16_t r_1 = vextq_u8(row_1, row_2, 11); const uint8x16_t r_2 = vextq_u8(row_2, row_3, 11); d135_store_32x2(&dst, stride, r_0, r_1, r_2); } { const uint8x16_t r_0 = vextq_u8(row_0, row_1, 10); const uint8x16_t r_1 = vextq_u8(row_1, row_2, 10); const uint8x16_t r_2 = vextq_u8(row_2, row_3, 10); d135_store_32x2(&dst, stride, r_0, r_1, r_2); } { const uint8x16_t r_0 = vextq_u8(row_0, row_1, 9); const uint8x16_t r_1 = vextq_u8(row_1, row_2, 9); const uint8x16_t r_2 = vextq_u8(row_2, row_3, 9); d135_store_32x2(&dst, stride, r_0, r_1, r_2); } { const uint8x16_t r_0 = vextq_u8(row_0, row_1, 8); const uint8x16_t r_1 = vextq_u8(row_1, row_2, 8); const uint8x16_t r_2 = vextq_u8(row_2, row_3, 8); d135_store_32x2(&dst, stride, r_0, r_1, r_2); } { const uint8x16_t r_0 = vextq_u8(row_0, row_1, 7); const uint8x16_t r_1 = vextq_u8(row_1, row_2, 7); const uint8x16_t r_2 = vextq_u8(row_2, row_3, 7); d135_store_32x2(&dst, stride, r_0, r_1, r_2); } { const uint8x16_t r_0 = vextq_u8(row_0, row_1, 6); const uint8x16_t r_1 = vextq_u8(row_1, row_2, 6); const uint8x16_t r_2 = vextq_u8(row_2, row_3, 6); d135_store_32x2(&dst, stride, r_0, r_1, r_2); } { const uint8x16_t r_0 = vextq_u8(row_0, row_1, 5); const uint8x16_t r_1 = vextq_u8(row_1, row_2, 5); const uint8x16_t r_2 = vextq_u8(row_2, row_3, 5); d135_store_32x2(&dst, stride, r_0, r_1, r_2); } { const uint8x16_t r_0 = vextq_u8(row_0, row_1, 4); const uint8x16_t r_1 = vextq_u8(row_1, row_2, 4); const uint8x16_t r_2 = vextq_u8(row_2, row_3, 4); d135_store_32x2(&dst, stride, r_0, r_1, r_2); } { const uint8x16_t r_0 = vextq_u8(row_0, row_1, 3); const uint8x16_t r_1 = vextq_u8(row_1, row_2, 3); const uint8x16_t r_2 = vextq_u8(row_2, row_3, 3); d135_store_32x2(&dst, stride, r_0, r_1, r_2); } { const uint8x16_t r_0 = vextq_u8(row_0, row_1, 2); const uint8x16_t r_1 = vextq_u8(row_1, row_2, 2); const uint8x16_t r_2 = vextq_u8(row_2, row_3, 2); d135_store_32x2(&dst, stride, r_0, r_1, r_2); } { const uint8x16_t r_0 = vextq_u8(row_0, row_1, 1); const uint8x16_t r_1 = vextq_u8(row_1, row_2, 1); const uint8x16_t r_2 = vextq_u8(row_2, row_3, 1); d135_store_32x2(&dst, stride, r_0, r_1, r_2); } d135_store_32x2(&dst, stride, row_0, row_1, row_2); } // ----------------------------------------------------------------------------- void vpx_d153_predictor_4x4_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { // See vpx_d153_predictor_8x8_neon for more details on the implementation. uint8x8_t az, a0, l0az, l0, l1, azl0, d0, d1, d2, d02; az = load_unaligned_u8_4x1(above - 1); a0 = load_unaligned_u8_4x1(above + 0); // [ left[0], above[-1], above[0], above[1], x, x, x, x ] l0az = vext_u8(vld1_dup_u8(left), az, 7); l0 = load_unaligned_u8_4x1(left + 0); l1 = load_unaligned_u8_4x1(left + 1); // [ above[-1], left[0], left[1], left[2], x, x, x, x ] azl0 = vext_u8(vld1_dup_u8(above - 1), l0, 7); d0 = vrhadd_u8(azl0, l0); d1 = vrhadd_u8(vhadd_u8(l0az, a0), az); d2 = vrhadd_u8(vhadd_u8(azl0, l1), l0); d02 = vrev64_u8(vzip_u8(d0, d2).val[0]); store_u8_4x1(dst + 0 * stride, vext_u8(d02, d1, 7)); store_u8_4x1(dst + 1 * stride, vext_u8(d02, d1, 5)); store_u8_4x1(dst + 2 * stride, vext_u8(d02, d1, 3)); store_u8_4x1(dst + 3 * stride, vext_u8(d02, d1, 1)); } void vpx_d153_predictor_8x8_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { uint8x8_t az, a0, l0az, l0, l1, azl0, d0, d1, d2, d02_lo, d02_hi; az = vld1_u8(above - 1); a0 = vld1_u8(above + 0); // [ left[0], above[-1], ... , above[5] ] l0az = vext_u8(vld1_dup_u8(left), az, 7); l0 = vld1_u8(left); // The last lane here is unused, reading left[8] could cause a buffer // over-read, so just fill with a duplicate of left[0] to avoid needing to // materialize a zero: // [ left[1], ... , left[7], x ] l1 = vext_u8(l0, l0, 1); // [ above[-1], left[0], ... , left[6] ] azl0 = vext_u8(vld1_dup_u8(above - 1), l0, 7); // d0[0] = AVG2(above[-1], left[0]) // d0[1] = AVG2(left[0], left[1]) // ... // d0[7] = AVG2(left[6], left[7]) d0 = vrhadd_u8(azl0, l0); // d1[0] = AVG3(left[0], above[-1], above[0]) // d1[1] = AVG3(above[-1], above[0], above[1]) // ... // d1[7] = AVG3(above[5], above[6], above[7]) d1 = vrhadd_u8(vhadd_u8(l0az, a0), az); // d2[0] = AVG3(above[-1], left[0], left[1]) // d2[1] = AVG3(left[0], left[1], left[2]) // ... // d2[6] = AVG3(left[5], left[6], left[7]) // d2[7] = x (don't care) d2 = vrhadd_u8(vhadd_u8(azl0, l1), l0); // The ext instruction shifts elements in from the end of the vector rather // than the start, so reverse the vectors to put the elements to be shifted // in at the end. The lowest lane of d02_lo is unused. d02_lo = vzip_u8(vrev64_u8(d2), vrev64_u8(d0)).val[0]; d02_hi = vzip_u8(vrev64_u8(d2), vrev64_u8(d0)).val[1]; // Incrementally shift more elements from d0/d2 reversed into d1: // stride=0 [ d0[0], d1[0], d1[1], d1[2], d1[3], d1[4], d1[5], d1[6] ] // stride=1 [ d0[1], d2[0], d0[0], d1[0], d1[1], d1[2], d1[3], d1[4] ] // stride=2 [ d0[2], d2[1], d0[1], d2[0], d0[0], d1[0], d1[1], d1[2] ] // stride=3 [ d0[3], d2[2], d0[2], d2[1], d0[1], d2[0], d0[0], d1[0] ] // stride=4 [ d0[4], d2[3], d0[3], d2[2], d0[2], d2[1], d0[1], d2[0] ] // stride=5 [ d0[5], d2[4], d0[4], d2[3], d0[3], d2[2], d0[2], d2[1] ] // stride=6 [ d0[6], d2[5], d0[5], d2[4], d0[4], d2[3], d0[3], d2[2] ] // stride=7 [ d0[7], d2[6], d0[6], d2[5], d0[5], d2[4], d0[4], d2[3] ] vst1_u8(dst + 0 * stride, vext_u8(d02_hi, d1, 7)); vst1_u8(dst + 1 * stride, vext_u8(d02_hi, d1, 5)); vst1_u8(dst + 2 * stride, vext_u8(d02_hi, d1, 3)); vst1_u8(dst + 3 * stride, vext_u8(d02_hi, d1, 1)); vst1_u8(dst + 4 * stride, vext_u8(d02_lo, d02_hi, 7)); vst1_u8(dst + 5 * stride, vext_u8(d02_lo, d02_hi, 5)); vst1_u8(dst + 6 * stride, vext_u8(d02_lo, d02_hi, 3)); vst1_u8(dst + 7 * stride, vext_u8(d02_lo, d02_hi, 1)); } void vpx_d153_predictor_16x16_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { // See vpx_d153_predictor_8x8_neon for more details on the implementation. uint8x16_t az, a0, l0az, l0, l1, azl0, d0, d1, d2, d02_lo, d02_hi; az = vld1q_u8(above - 1); a0 = vld1q_u8(above + 0); // [ left[0], above[-1], ... , above[13] ] l0az = vextq_u8(vld1q_dup_u8(left), az, 15); l0 = vld1q_u8(left + 0); // The last lane here is unused, reading left[16] could cause a buffer // over-read, so just fill with a duplicate of left[0] to avoid needing to // materialize a zero: // [ left[1], ... , left[15], x ] l1 = vextq_u8(l0, l0, 1); // [ above[-1], left[0], ... , left[14] ] azl0 = vextq_u8(vld1q_dup_u8(above - 1), l0, 15); d0 = vrhaddq_u8(azl0, l0); d1 = vrhaddq_u8(vhaddq_u8(l0az, a0), az); d2 = vrhaddq_u8(vhaddq_u8(azl0, l1), l0); d0 = vrev64q_u8(vextq_u8(d0, d0, 8)); d2 = vrev64q_u8(vextq_u8(d2, d2, 8)); // The lowest lane of d02_lo is unused. d02_lo = vzipq_u8(d2, d0).val[0]; d02_hi = vzipq_u8(d2, d0).val[1]; vst1q_u8(dst + 0 * stride, vextq_u8(d02_hi, d1, 15)); vst1q_u8(dst + 1 * stride, vextq_u8(d02_hi, d1, 13)); vst1q_u8(dst + 2 * stride, vextq_u8(d02_hi, d1, 11)); vst1q_u8(dst + 3 * stride, vextq_u8(d02_hi, d1, 9)); vst1q_u8(dst + 4 * stride, vextq_u8(d02_hi, d1, 7)); vst1q_u8(dst + 5 * stride, vextq_u8(d02_hi, d1, 5)); vst1q_u8(dst + 6 * stride, vextq_u8(d02_hi, d1, 3)); vst1q_u8(dst + 7 * stride, vextq_u8(d02_hi, d1, 1)); vst1q_u8(dst + 8 * stride, vextq_u8(d02_lo, d02_hi, 15)); vst1q_u8(dst + 9 * stride, vextq_u8(d02_lo, d02_hi, 13)); vst1q_u8(dst + 10 * stride, vextq_u8(d02_lo, d02_hi, 11)); vst1q_u8(dst + 11 * stride, vextq_u8(d02_lo, d02_hi, 9)); vst1q_u8(dst + 12 * stride, vextq_u8(d02_lo, d02_hi, 7)); vst1q_u8(dst + 13 * stride, vextq_u8(d02_lo, d02_hi, 5)); vst1q_u8(dst + 14 * stride, vextq_u8(d02_lo, d02_hi, 3)); vst1q_u8(dst + 15 * stride, vextq_u8(d02_lo, d02_hi, 1)); } void vpx_d153_predictor_32x32_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { // See vpx_d153_predictor_8x8_neon for more details on the implementation. uint8x16_t az, a0, a14, a15, a16, l0az, l0, l1, l15, l16, l17, azl0, d0_lo, d0_hi, d1_lo, d1_hi, d2_lo, d2_hi; uint8x16x2_t d02_hi, d02_lo; az = vld1q_u8(above - 1); a0 = vld1q_u8(above + 0); a14 = vld1q_u8(above + 14); a15 = vld1q_u8(above + 15); a16 = vld1q_u8(above + 16); // [ left[0], above[-1], ... , above[13] ] l0az = vextq_u8(vld1q_dup_u8(left), az, 15); l0 = vld1q_u8(left); l1 = vld1q_u8(left + 1); l15 = vld1q_u8(left + 15); l16 = vld1q_u8(left + 16); // The last lane here is unused, reading left[32] would cause a buffer // over-read (observed as an address-sanitizer failure), so just fill with a // duplicate of left[16] to avoid needing to materialize a zero: // [ left[17], ... , left[31], x ] l17 = vextq_u8(l16, l16, 1); // [ above[-1], left[0], ... , left[14] ] azl0 = vextq_u8(vld1q_dup_u8(above - 1), l0, 15); d0_lo = vrhaddq_u8(azl0, l0); d0_hi = vrhaddq_u8(l15, l16); d1_lo = vrhaddq_u8(vhaddq_u8(l0az, a0), az); d1_hi = vrhaddq_u8(vhaddq_u8(a14, a16), a15); // The highest lane of d2_hi is unused. d2_lo = vrhaddq_u8(vhaddq_u8(azl0, l1), l0); d2_hi = vrhaddq_u8(vhaddq_u8(l15, l17), l16); d0_lo = vrev64q_u8(vextq_u8(d0_lo, d0_lo, 8)); d0_hi = vrev64q_u8(vextq_u8(d0_hi, d0_hi, 8)); d2_lo = vrev64q_u8(vextq_u8(d2_lo, d2_lo, 8)); d2_hi = vrev64q_u8(vextq_u8(d2_hi, d2_hi, 8)); // d02_hi.val[0][0] is unused here. d02_hi = vzipq_u8(d2_hi, d0_hi); d02_lo = vzipq_u8(d2_lo, d0_lo); vst1q_u8(dst + 0 * stride + 0, vextq_u8(d02_lo.val[1], d1_lo, 15)); vst1q_u8(dst + 0 * stride + 16, vextq_u8(d1_lo, d1_hi, 15)); vst1q_u8(dst + 1 * stride + 0, vextq_u8(d02_lo.val[1], d1_lo, 13)); vst1q_u8(dst + 1 * stride + 16, vextq_u8(d1_lo, d1_hi, 13)); vst1q_u8(dst + 2 * stride + 0, vextq_u8(d02_lo.val[1], d1_lo, 11)); vst1q_u8(dst + 2 * stride + 16, vextq_u8(d1_lo, d1_hi, 11)); vst1q_u8(dst + 3 * stride + 0, vextq_u8(d02_lo.val[1], d1_lo, 9)); vst1q_u8(dst + 3 * stride + 16, vextq_u8(d1_lo, d1_hi, 9)); vst1q_u8(dst + 4 * stride + 0, vextq_u8(d02_lo.val[1], d1_lo, 7)); vst1q_u8(dst + 4 * stride + 16, vextq_u8(d1_lo, d1_hi, 7)); vst1q_u8(dst + 5 * stride + 0, vextq_u8(d02_lo.val[1], d1_lo, 5)); vst1q_u8(dst + 5 * stride + 16, vextq_u8(d1_lo, d1_hi, 5)); vst1q_u8(dst + 6 * stride + 0, vextq_u8(d02_lo.val[1], d1_lo, 3)); vst1q_u8(dst + 6 * stride + 16, vextq_u8(d1_lo, d1_hi, 3)); vst1q_u8(dst + 7 * stride + 0, vextq_u8(d02_lo.val[1], d1_lo, 1)); vst1q_u8(dst + 7 * stride + 16, vextq_u8(d1_lo, d1_hi, 1)); vst1q_u8(dst + 8 * stride + 0, vextq_u8(d02_lo.val[0], d02_lo.val[1], 15)); vst1q_u8(dst + 8 * stride + 16, vextq_u8(d02_lo.val[1], d1_lo, 15)); vst1q_u8(dst + 9 * stride + 0, vextq_u8(d02_lo.val[0], d02_lo.val[1], 13)); vst1q_u8(dst + 9 * stride + 16, vextq_u8(d02_lo.val[1], d1_lo, 13)); vst1q_u8(dst + 10 * stride + 0, vextq_u8(d02_lo.val[0], d02_lo.val[1], 11)); vst1q_u8(dst + 10 * stride + 16, vextq_u8(d02_lo.val[1], d1_lo, 11)); vst1q_u8(dst + 11 * stride + 0, vextq_u8(d02_lo.val[0], d02_lo.val[1], 9)); vst1q_u8(dst + 11 * stride + 16, vextq_u8(d02_lo.val[1], d1_lo, 9)); vst1q_u8(dst + 12 * stride + 0, vextq_u8(d02_lo.val[0], d02_lo.val[1], 7)); vst1q_u8(dst + 12 * stride + 16, vextq_u8(d02_lo.val[1], d1_lo, 7)); vst1q_u8(dst + 13 * stride + 0, vextq_u8(d02_lo.val[0], d02_lo.val[1], 5)); vst1q_u8(dst + 13 * stride + 16, vextq_u8(d02_lo.val[1], d1_lo, 5)); vst1q_u8(dst + 14 * stride + 0, vextq_u8(d02_lo.val[0], d02_lo.val[1], 3)); vst1q_u8(dst + 14 * stride + 16, vextq_u8(d02_lo.val[1], d1_lo, 3)); vst1q_u8(dst + 15 * stride + 0, vextq_u8(d02_lo.val[0], d02_lo.val[1], 1)); vst1q_u8(dst + 15 * stride + 16, vextq_u8(d02_lo.val[1], d1_lo, 1)); vst1q_u8(dst + 16 * stride + 0, vextq_u8(d02_hi.val[1], d02_lo.val[0], 15)); vst1q_u8(dst + 16 * stride + 16, vextq_u8(d02_lo.val[0], d02_lo.val[1], 15)); vst1q_u8(dst + 17 * stride + 0, vextq_u8(d02_hi.val[1], d02_lo.val[0], 13)); vst1q_u8(dst + 17 * stride + 16, vextq_u8(d02_lo.val[0], d02_lo.val[1], 13)); vst1q_u8(dst + 18 * stride + 0, vextq_u8(d02_hi.val[1], d02_lo.val[0], 11)); vst1q_u8(dst + 18 * stride + 16, vextq_u8(d02_lo.val[0], d02_lo.val[1], 11)); vst1q_u8(dst + 19 * stride + 0, vextq_u8(d02_hi.val[1], d02_lo.val[0], 9)); vst1q_u8(dst + 19 * stride + 16, vextq_u8(d02_lo.val[0], d02_lo.val[1], 9)); vst1q_u8(dst + 20 * stride + 0, vextq_u8(d02_hi.val[1], d02_lo.val[0], 7)); vst1q_u8(dst + 20 * stride + 16, vextq_u8(d02_lo.val[0], d02_lo.val[1], 7)); vst1q_u8(dst + 21 * stride + 0, vextq_u8(d02_hi.val[1], d02_lo.val[0], 5)); vst1q_u8(dst + 21 * stride + 16, vextq_u8(d02_lo.val[0], d02_lo.val[1], 5)); vst1q_u8(dst + 22 * stride + 0, vextq_u8(d02_hi.val[1], d02_lo.val[0], 3)); vst1q_u8(dst + 22 * stride + 16, vextq_u8(d02_lo.val[0], d02_lo.val[1], 3)); vst1q_u8(dst + 23 * stride + 0, vextq_u8(d02_hi.val[1], d02_lo.val[0], 1)); vst1q_u8(dst + 23 * stride + 16, vextq_u8(d02_lo.val[0], d02_lo.val[1], 1)); vst1q_u8(dst + 24 * stride + 0, vextq_u8(d02_hi.val[0], d02_hi.val[1], 15)); vst1q_u8(dst + 24 * stride + 16, vextq_u8(d02_hi.val[1], d02_lo.val[0], 15)); vst1q_u8(dst + 25 * stride + 0, vextq_u8(d02_hi.val[0], d02_hi.val[1], 13)); vst1q_u8(dst + 25 * stride + 16, vextq_u8(d02_hi.val[1], d02_lo.val[0], 13)); vst1q_u8(dst + 26 * stride + 0, vextq_u8(d02_hi.val[0], d02_hi.val[1], 11)); vst1q_u8(dst + 26 * stride + 16, vextq_u8(d02_hi.val[1], d02_lo.val[0], 11)); vst1q_u8(dst + 27 * stride + 0, vextq_u8(d02_hi.val[0], d02_hi.val[1], 9)); vst1q_u8(dst + 27 * stride + 16, vextq_u8(d02_hi.val[1], d02_lo.val[0], 9)); vst1q_u8(dst + 28 * stride + 0, vextq_u8(d02_hi.val[0], d02_hi.val[1], 7)); vst1q_u8(dst + 28 * stride + 16, vextq_u8(d02_hi.val[1], d02_lo.val[0], 7)); vst1q_u8(dst + 29 * stride + 0, vextq_u8(d02_hi.val[0], d02_hi.val[1], 5)); vst1q_u8(dst + 29 * stride + 16, vextq_u8(d02_hi.val[1], d02_lo.val[0], 5)); vst1q_u8(dst + 30 * stride + 0, vextq_u8(d02_hi.val[0], d02_hi.val[1], 3)); vst1q_u8(dst + 30 * stride + 16, vextq_u8(d02_hi.val[1], d02_lo.val[0], 3)); vst1q_u8(dst + 31 * stride + 0, vextq_u8(d02_hi.val[0], d02_hi.val[1], 1)); vst1q_u8(dst + 31 * stride + 16, vextq_u8(d02_hi.val[1], d02_lo.val[0], 1)); } // ----------------------------------------------------------------------------- void vpx_d207_predictor_4x4_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { uint8x8_t l0, l3, l1, l2, c0, c1, c01, d0, d1; (void)above; // We need the low half lanes here for the c0/c1 arithmetic but the high half // lanes for the ext: // [ left[0], left[1], left[2], left[3], left[0], left[1], left[2], left[3] ] l0 = load_replicate_u8_4x1(left + 0); l3 = vld1_dup_u8(left + 3); // [ left[1], left[2], left[3], left[3], x, x, x, x ] l1 = vext_u8(l0, l3, 5); // [ left[2], left[3], left[3], left[3], x, x, x, x ] l2 = vext_u8(l0, l3, 6); c0 = vrhadd_u8(l0, l1); c1 = vrhadd_u8(vhadd_u8(l0, l2), l1); // [ c0[0], c1[0], c0[1], c1[1], c0[2], c1[2], c0[3], c1[3] ] c01 = vzip_u8(c0, c1).val[0]; d0 = c01; d1 = vext_u8(c01, l3, 2); // Store the high half of the vector for stride={2,3} to avoid needing // additional ext instructions: // stride=0 [ c0[0], c1[0], c0[1], c1[1] ] // stride=1 [ c0[1], c1[1], c0[2], c1[2] ] // stride=2 [ c0[2], c1[2], c0[3], c1[3] ] // stride=3 [ c0[3], c1[3], left[3], left[3] ] store_u8_4x1(dst + 0 * stride, d0); store_u8_4x1(dst + 1 * stride, d1); store_u8_4x1_high(dst + 2 * stride, d0); store_u8_4x1_high(dst + 3 * stride, d1); } void vpx_d207_predictor_8x8_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { uint8x8_t l7, l0, l1, l2, c0, c1, c01_lo, c01_hi; (void)above; l0 = vld1_u8(left + 0); l7 = vld1_dup_u8(left + 7); // [ left[1], left[2], left[3], left[4], left[5], left[6], left[7], left[7] ] l1 = vext_u8(l0, l7, 1); // [ left[2], left[3], left[4], left[5], left[6], left[7], left[7], left[7] ] l2 = vext_u8(l0, l7, 2); c0 = vrhadd_u8(l0, l1); c1 = vrhadd_u8(vhadd_u8(l0, l2), l1); c01_lo = vzip_u8(c0, c1).val[0]; c01_hi = vzip_u8(c0, c1).val[1]; vst1_u8(dst + 0 * stride, c01_lo); vst1_u8(dst + 1 * stride, vext_u8(c01_lo, c01_hi, 2)); vst1_u8(dst + 2 * stride, vext_u8(c01_lo, c01_hi, 4)); vst1_u8(dst + 3 * stride, vext_u8(c01_lo, c01_hi, 6)); vst1_u8(dst + 4 * stride, c01_hi); vst1_u8(dst + 5 * stride, vext_u8(c01_hi, l7, 2)); vst1_u8(dst + 6 * stride, vext_u8(c01_hi, l7, 4)); vst1_u8(dst + 7 * stride, vext_u8(c01_hi, l7, 6)); } void vpx_d207_predictor_16x16_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { uint8x16_t l15, l0, l1, l2, c0, c1, c01_lo, c01_hi; (void)above; l0 = vld1q_u8(left + 0); l15 = vld1q_dup_u8(left + 15); l1 = vextq_u8(l0, l15, 1); l2 = vextq_u8(l0, l15, 2); c0 = vrhaddq_u8(l0, l1); c1 = vrhaddq_u8(vhaddq_u8(l0, l2), l1); c01_lo = vzipq_u8(c0, c1).val[0]; c01_hi = vzipq_u8(c0, c1).val[1]; vst1q_u8(dst + 0 * stride, c01_lo); vst1q_u8(dst + 1 * stride, vextq_u8(c01_lo, c01_hi, 2)); vst1q_u8(dst + 2 * stride, vextq_u8(c01_lo, c01_hi, 4)); vst1q_u8(dst + 3 * stride, vextq_u8(c01_lo, c01_hi, 6)); vst1q_u8(dst + 4 * stride, vextq_u8(c01_lo, c01_hi, 8)); vst1q_u8(dst + 5 * stride, vextq_u8(c01_lo, c01_hi, 10)); vst1q_u8(dst + 6 * stride, vextq_u8(c01_lo, c01_hi, 12)); vst1q_u8(dst + 7 * stride, vextq_u8(c01_lo, c01_hi, 14)); vst1q_u8(dst + 8 * stride, c01_hi); vst1q_u8(dst + 9 * stride, vextq_u8(c01_hi, l15, 2)); vst1q_u8(dst + 10 * stride, vextq_u8(c01_hi, l15, 4)); vst1q_u8(dst + 11 * stride, vextq_u8(c01_hi, l15, 6)); vst1q_u8(dst + 12 * stride, vextq_u8(c01_hi, l15, 8)); vst1q_u8(dst + 13 * stride, vextq_u8(c01_hi, l15, 10)); vst1q_u8(dst + 14 * stride, vextq_u8(c01_hi, l15, 12)); vst1q_u8(dst + 15 * stride, vextq_u8(c01_hi, l15, 14)); } void vpx_d207_predictor_32x32_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { uint8x16_t l0_lo, l0_hi, l1_lo, l1_hi, l2_lo, l2_hi, l31, c0_lo, c0_hi, c1_lo, c1_hi, c01[4]; (void)above; l0_lo = vld1q_u8(left + 0); l0_hi = vld1q_u8(left + 16); l31 = vld1q_dup_u8(left + 31); l1_lo = vextq_u8(l0_lo, l0_hi, 1); l1_hi = vextq_u8(l0_hi, l31, 1); l2_lo = vextq_u8(l0_lo, l0_hi, 2); l2_hi = vextq_u8(l0_hi, l31, 2); c0_lo = vrhaddq_u8(l0_lo, l1_lo); c0_hi = vrhaddq_u8(l0_hi, l1_hi); c1_lo = vrhaddq_u8(vhaddq_u8(l0_lo, l2_lo), l1_lo); c1_hi = vrhaddq_u8(vhaddq_u8(l0_hi, l2_hi), l1_hi); c01[0] = vzipq_u8(c0_lo, c1_lo).val[0]; c01[1] = vzipq_u8(c0_lo, c1_lo).val[1]; c01[2] = vzipq_u8(c0_hi, c1_hi).val[0]; c01[3] = vzipq_u8(c0_hi, c1_hi).val[1]; vst1q_u8(dst + 0 * stride + 0, c01[0]); vst1q_u8(dst + 0 * stride + 16, c01[1]); vst1q_u8(dst + 1 * stride + 0, vextq_u8(c01[0], c01[1], 2)); vst1q_u8(dst + 1 * stride + 16, vextq_u8(c01[1], c01[2], 2)); vst1q_u8(dst + 2 * stride + 0, vextq_u8(c01[0], c01[1], 4)); vst1q_u8(dst + 2 * stride + 16, vextq_u8(c01[1], c01[2], 4)); vst1q_u8(dst + 3 * stride + 0, vextq_u8(c01[0], c01[1], 6)); vst1q_u8(dst + 3 * stride + 16, vextq_u8(c01[1], c01[2], 6)); vst1q_u8(dst + 4 * stride + 0, vextq_u8(c01[0], c01[1], 8)); vst1q_u8(dst + 4 * stride + 16, vextq_u8(c01[1], c01[2], 8)); vst1q_u8(dst + 5 * stride + 0, vextq_u8(c01[0], c01[1], 10)); vst1q_u8(dst + 5 * stride + 16, vextq_u8(c01[1], c01[2], 10)); vst1q_u8(dst + 6 * stride + 0, vextq_u8(c01[0], c01[1], 12)); vst1q_u8(dst + 6 * stride + 16, vextq_u8(c01[1], c01[2], 12)); vst1q_u8(dst + 7 * stride + 0, vextq_u8(c01[0], c01[1], 14)); vst1q_u8(dst + 7 * stride + 16, vextq_u8(c01[1], c01[2], 14)); vst1q_u8(dst + 8 * stride + 0, c01[1]); vst1q_u8(dst + 8 * stride + 16, c01[2]); vst1q_u8(dst + 9 * stride + 0, vextq_u8(c01[1], c01[2], 2)); vst1q_u8(dst + 9 * stride + 16, vextq_u8(c01[2], c01[3], 2)); vst1q_u8(dst + 10 * stride + 0, vextq_u8(c01[1], c01[2], 4)); vst1q_u8(dst + 10 * stride + 16, vextq_u8(c01[2], c01[3], 4)); vst1q_u8(dst + 11 * stride + 0, vextq_u8(c01[1], c01[2], 6)); vst1q_u8(dst + 11 * stride + 16, vextq_u8(c01[2], c01[3], 6)); vst1q_u8(dst + 12 * stride + 0, vextq_u8(c01[1], c01[2], 8)); vst1q_u8(dst + 12 * stride + 16, vextq_u8(c01[2], c01[3], 8)); vst1q_u8(dst + 13 * stride + 0, vextq_u8(c01[1], c01[2], 10)); vst1q_u8(dst + 13 * stride + 16, vextq_u8(c01[2], c01[3], 10)); vst1q_u8(dst + 14 * stride + 0, vextq_u8(c01[1], c01[2], 12)); vst1q_u8(dst + 14 * stride + 16, vextq_u8(c01[2], c01[3], 12)); vst1q_u8(dst + 15 * stride + 0, vextq_u8(c01[1], c01[2], 14)); vst1q_u8(dst + 15 * stride + 16, vextq_u8(c01[2], c01[3], 14)); vst1q_u8(dst + 16 * stride + 0, c01[2]); vst1q_u8(dst + 16 * stride + 16, c01[3]); vst1q_u8(dst + 17 * stride + 0, vextq_u8(c01[2], c01[3], 2)); vst1q_u8(dst + 17 * stride + 16, vextq_u8(c01[3], l31, 2)); vst1q_u8(dst + 18 * stride + 0, vextq_u8(c01[2], c01[3], 4)); vst1q_u8(dst + 18 * stride + 16, vextq_u8(c01[3], l31, 4)); vst1q_u8(dst + 19 * stride + 0, vextq_u8(c01[2], c01[3], 6)); vst1q_u8(dst + 19 * stride + 16, vextq_u8(c01[3], l31, 6)); vst1q_u8(dst + 20 * stride + 0, vextq_u8(c01[2], c01[3], 8)); vst1q_u8(dst + 20 * stride + 16, vextq_u8(c01[3], l31, 8)); vst1q_u8(dst + 21 * stride + 0, vextq_u8(c01[2], c01[3], 10)); vst1q_u8(dst + 21 * stride + 16, vextq_u8(c01[3], l31, 10)); vst1q_u8(dst + 22 * stride + 0, vextq_u8(c01[2], c01[3], 12)); vst1q_u8(dst + 22 * stride + 16, vextq_u8(c01[3], l31, 12)); vst1q_u8(dst + 23 * stride + 0, vextq_u8(c01[2], c01[3], 14)); vst1q_u8(dst + 23 * stride + 16, vextq_u8(c01[3], l31, 14)); vst1q_u8(dst + 24 * stride + 0, c01[3]); vst1q_u8(dst + 24 * stride + 16, l31); vst1q_u8(dst + 25 * stride + 0, vextq_u8(c01[3], l31, 2)); vst1q_u8(dst + 25 * stride + 16, l31); vst1q_u8(dst + 26 * stride + 0, vextq_u8(c01[3], l31, 4)); vst1q_u8(dst + 26 * stride + 16, l31); vst1q_u8(dst + 27 * stride + 0, vextq_u8(c01[3], l31, 6)); vst1q_u8(dst + 27 * stride + 16, l31); vst1q_u8(dst + 28 * stride + 0, vextq_u8(c01[3], l31, 8)); vst1q_u8(dst + 28 * stride + 16, l31); vst1q_u8(dst + 29 * stride + 0, vextq_u8(c01[3], l31, 10)); vst1q_u8(dst + 29 * stride + 16, l31); vst1q_u8(dst + 30 * stride + 0, vextq_u8(c01[3], l31, 12)); vst1q_u8(dst + 30 * stride + 16, l31); vst1q_u8(dst + 31 * stride + 0, vextq_u8(c01[3], l31, 14)); vst1q_u8(dst + 31 * stride + 16, l31); } // ----------------------------------------------------------------------------- #if !HAVE_NEON_ASM void vpx_v_predictor_4x4_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint32_t d = *(const uint32_t *)above; int i; (void)left; for (i = 0; i < 4; i++, dst += stride) { *(uint32_t *)dst = d; } } void vpx_v_predictor_8x8_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x8_t d = vld1_u8(above); int i; (void)left; for (i = 0; i < 8; i++, dst += stride) { vst1_u8(dst, d); } } void vpx_v_predictor_16x16_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x16_t d = vld1q_u8(above); int i; (void)left; for (i = 0; i < 16; i++, dst += stride) { vst1q_u8(dst, d); } } void vpx_v_predictor_32x32_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x16_t d0 = vld1q_u8(above); const uint8x16_t d1 = vld1q_u8(above + 16); int i; (void)left; for (i = 0; i < 32; i++) { // Note: performance was worse using vst2q_u8 under gcc-4.9 & clang-3.8. // clang-3.8 unrolled the loop fully with no filler so the cause is likely // the latency of the instruction. vst1q_u8(dst, d0); dst += 16; vst1q_u8(dst, d1); dst += stride - 16; } } // ----------------------------------------------------------------------------- void vpx_h_predictor_4x4_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint32x2_t zero = vdup_n_u32(0); const uint8x8_t left_u8 = vreinterpret_u8_u32(vld1_lane_u32((const uint32_t *)left, zero, 0)); uint8x8_t d; (void)above; d = vdup_lane_u8(left_u8, 0); vst1_lane_u32((uint32_t *)dst, vreinterpret_u32_u8(d), 0); dst += stride; d = vdup_lane_u8(left_u8, 1); vst1_lane_u32((uint32_t *)dst, vreinterpret_u32_u8(d), 0); dst += stride; d = vdup_lane_u8(left_u8, 2); vst1_lane_u32((uint32_t *)dst, vreinterpret_u32_u8(d), 0); dst += stride; d = vdup_lane_u8(left_u8, 3); vst1_lane_u32((uint32_t *)dst, vreinterpret_u32_u8(d), 0); } void vpx_h_predictor_8x8_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x8_t left_u8 = vld1_u8(left); uint8x8_t d; (void)above; d = vdup_lane_u8(left_u8, 0); vst1_u8(dst, d); dst += stride; d = vdup_lane_u8(left_u8, 1); vst1_u8(dst, d); dst += stride; d = vdup_lane_u8(left_u8, 2); vst1_u8(dst, d); dst += stride; d = vdup_lane_u8(left_u8, 3); vst1_u8(dst, d); dst += stride; d = vdup_lane_u8(left_u8, 4); vst1_u8(dst, d); dst += stride; d = vdup_lane_u8(left_u8, 5); vst1_u8(dst, d); dst += stride; d = vdup_lane_u8(left_u8, 6); vst1_u8(dst, d); dst += stride; d = vdup_lane_u8(left_u8, 7); vst1_u8(dst, d); } static INLINE void h_store_16x8(uint8_t **dst, const ptrdiff_t stride, const uint8x8_t left) { const uint8x16_t row_0 = vdupq_lane_u8(left, 0); const uint8x16_t row_1 = vdupq_lane_u8(left, 1); const uint8x16_t row_2 = vdupq_lane_u8(left, 2); const uint8x16_t row_3 = vdupq_lane_u8(left, 3); const uint8x16_t row_4 = vdupq_lane_u8(left, 4); const uint8x16_t row_5 = vdupq_lane_u8(left, 5); const uint8x16_t row_6 = vdupq_lane_u8(left, 6); const uint8x16_t row_7 = vdupq_lane_u8(left, 7); vst1q_u8(*dst, row_0); *dst += stride; vst1q_u8(*dst, row_1); *dst += stride; vst1q_u8(*dst, row_2); *dst += stride; vst1q_u8(*dst, row_3); *dst += stride; vst1q_u8(*dst, row_4); *dst += stride; vst1q_u8(*dst, row_5); *dst += stride; vst1q_u8(*dst, row_6); *dst += stride; vst1q_u8(*dst, row_7); *dst += stride; } void vpx_h_predictor_16x16_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x16_t left_u8q = vld1q_u8(left); (void)above; h_store_16x8(&dst, stride, vget_low_u8(left_u8q)); h_store_16x8(&dst, stride, vget_high_u8(left_u8q)); } static INLINE void h_store_32x8(uint8_t **dst, const ptrdiff_t stride, const uint8x8_t left) { const uint8x16_t row_0 = vdupq_lane_u8(left, 0); const uint8x16_t row_1 = vdupq_lane_u8(left, 1); const uint8x16_t row_2 = vdupq_lane_u8(left, 2); const uint8x16_t row_3 = vdupq_lane_u8(left, 3); const uint8x16_t row_4 = vdupq_lane_u8(left, 4); const uint8x16_t row_5 = vdupq_lane_u8(left, 5); const uint8x16_t row_6 = vdupq_lane_u8(left, 6); const uint8x16_t row_7 = vdupq_lane_u8(left, 7); vst1q_u8(*dst, row_0); // Note clang-3.8 produced poor code w/vst2q_u8 *dst += 16; vst1q_u8(*dst, row_0); *dst += stride - 16; vst1q_u8(*dst, row_1); *dst += 16; vst1q_u8(*dst, row_1); *dst += stride - 16; vst1q_u8(*dst, row_2); *dst += 16; vst1q_u8(*dst, row_2); *dst += stride - 16; vst1q_u8(*dst, row_3); *dst += 16; vst1q_u8(*dst, row_3); *dst += stride - 16; vst1q_u8(*dst, row_4); *dst += 16; vst1q_u8(*dst, row_4); *dst += stride - 16; vst1q_u8(*dst, row_5); *dst += 16; vst1q_u8(*dst, row_5); *dst += stride - 16; vst1q_u8(*dst, row_6); *dst += 16; vst1q_u8(*dst, row_6); *dst += stride - 16; vst1q_u8(*dst, row_7); *dst += 16; vst1q_u8(*dst, row_7); *dst += stride - 16; } void vpx_h_predictor_32x32_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { int i; (void)above; for (i = 0; i < 2; i++, left += 16) { const uint8x16_t left_u8 = vld1q_u8(left); h_store_32x8(&dst, stride, vget_low_u8(left_u8)); h_store_32x8(&dst, stride, vget_high_u8(left_u8)); } } // ----------------------------------------------------------------------------- static INLINE int16x8_t convert_u8_to_s16(uint8x8_t v) { return vreinterpretq_s16_u16(vmovl_u8(v)); } void vpx_tm_predictor_4x4_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x8_t top_left = vld1_dup_u8(above - 1); const uint8x8_t left_u8 = vld1_u8(left); const uint8x8_t above_u8 = vld1_u8(above); const int16x4_t left_s16 = vget_low_s16(convert_u8_to_s16(left_u8)); int16x8_t sub, sum; uint32x2_t d; sub = vreinterpretq_s16_u16(vsubl_u8(above_u8, top_left)); // Avoid vcombine_s16() which generates lots of redundant code with clang-3.8. sub = vreinterpretq_s16_s64( vdupq_lane_s64(vreinterpret_s64_s16(vget_low_s16(sub)), 0)); sum = vcombine_s16(vdup_lane_s16(left_s16, 0), vdup_lane_s16(left_s16, 1)); sum = vaddq_s16(sum, sub); d = vreinterpret_u32_u8(vqmovun_s16(sum)); vst1_lane_u32((uint32_t *)dst, d, 0); dst += stride; vst1_lane_u32((uint32_t *)dst, d, 1); dst += stride; sum = vcombine_s16(vdup_lane_s16(left_s16, 2), vdup_lane_s16(left_s16, 3)); sum = vaddq_s16(sum, sub); d = vreinterpret_u32_u8(vqmovun_s16(sum)); vst1_lane_u32((uint32_t *)dst, d, 0); dst += stride; vst1_lane_u32((uint32_t *)dst, d, 1); } static INLINE void tm_8_kernel(uint8_t **dst, const ptrdiff_t stride, const int16x8_t left_dup, const int16x8_t sub) { const int16x8_t sum = vaddq_s16(left_dup, sub); const uint8x8_t d = vqmovun_s16(sum); vst1_u8(*dst, d); *dst += stride; } void vpx_tm_predictor_8x8_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x8_t top_left = vld1_dup_u8(above - 1); const uint8x8_t above_u8 = vld1_u8(above); const uint8x8_t left_u8 = vld1_u8(left); const int16x8_t left_s16q = convert_u8_to_s16(left_u8); const int16x8_t sub = vreinterpretq_s16_u16(vsubl_u8(above_u8, top_left)); int16x4_t left_s16d = vget_low_s16(left_s16q); int i; for (i = 0; i < 2; i++, left_s16d = vget_high_s16(left_s16q)) { int16x8_t left_dup; left_dup = vdupq_lane_s16(left_s16d, 0); tm_8_kernel(&dst, stride, left_dup, sub); left_dup = vdupq_lane_s16(left_s16d, 1); tm_8_kernel(&dst, stride, left_dup, sub); left_dup = vdupq_lane_s16(left_s16d, 2); tm_8_kernel(&dst, stride, left_dup, sub); left_dup = vdupq_lane_s16(left_s16d, 3); tm_8_kernel(&dst, stride, left_dup, sub); } } static INLINE void tm_16_kernel(uint8_t **dst, const ptrdiff_t stride, const int16x8_t left_dup, const int16x8_t sub0, const int16x8_t sub1) { const int16x8_t sum0 = vaddq_s16(left_dup, sub0); const int16x8_t sum1 = vaddq_s16(left_dup, sub1); const uint8x8_t d0 = vqmovun_s16(sum0); const uint8x8_t d1 = vqmovun_s16(sum1); vst1_u8(*dst, d0); *dst += 8; vst1_u8(*dst, d1); *dst += stride - 8; } void vpx_tm_predictor_16x16_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x16_t top_left = vld1q_dup_u8(above - 1); const uint8x16_t above_u8 = vld1q_u8(above); const int16x8_t sub0 = vreinterpretq_s16_u16( vsubl_u8(vget_low_u8(above_u8), vget_low_u8(top_left))); const int16x8_t sub1 = vreinterpretq_s16_u16( vsubl_u8(vget_high_u8(above_u8), vget_high_u8(top_left))); int16x8_t left_dup; int i; for (i = 0; i < 2; i++, left += 8) { const uint8x8_t left_u8 = vld1_u8(left); const int16x8_t left_s16q = convert_u8_to_s16(left_u8); const int16x4_t left_low = vget_low_s16(left_s16q); const int16x4_t left_high = vget_high_s16(left_s16q); left_dup = vdupq_lane_s16(left_low, 0); tm_16_kernel(&dst, stride, left_dup, sub0, sub1); left_dup = vdupq_lane_s16(left_low, 1); tm_16_kernel(&dst, stride, left_dup, sub0, sub1); left_dup = vdupq_lane_s16(left_low, 2); tm_16_kernel(&dst, stride, left_dup, sub0, sub1); left_dup = vdupq_lane_s16(left_low, 3); tm_16_kernel(&dst, stride, left_dup, sub0, sub1); left_dup = vdupq_lane_s16(left_high, 0); tm_16_kernel(&dst, stride, left_dup, sub0, sub1); left_dup = vdupq_lane_s16(left_high, 1); tm_16_kernel(&dst, stride, left_dup, sub0, sub1); left_dup = vdupq_lane_s16(left_high, 2); tm_16_kernel(&dst, stride, left_dup, sub0, sub1); left_dup = vdupq_lane_s16(left_high, 3); tm_16_kernel(&dst, stride, left_dup, sub0, sub1); } } static INLINE void tm_32_kernel(uint8_t **dst, const ptrdiff_t stride, const int16x8_t left_dup, const int16x8_t sub0, const int16x8_t sub1, const int16x8_t sub2, const int16x8_t sub3) { const int16x8_t sum0 = vaddq_s16(left_dup, sub0); const int16x8_t sum1 = vaddq_s16(left_dup, sub1); const int16x8_t sum2 = vaddq_s16(left_dup, sub2); const int16x8_t sum3 = vaddq_s16(left_dup, sub3); const uint8x8_t d0 = vqmovun_s16(sum0); const uint8x8_t d1 = vqmovun_s16(sum1); const uint8x8_t d2 = vqmovun_s16(sum2); const uint8x8_t d3 = vqmovun_s16(sum3); vst1q_u8(*dst, vcombine_u8(d0, d1)); *dst += 16; vst1q_u8(*dst, vcombine_u8(d2, d3)); *dst += stride - 16; } void vpx_tm_predictor_32x32_neon(uint8_t *dst, ptrdiff_t stride, const uint8_t *above, const uint8_t *left) { const uint8x16_t top_left = vld1q_dup_u8(above - 1); const uint8x16_t above_low = vld1q_u8(above); const uint8x16_t above_high = vld1q_u8(above + 16); const int16x8_t sub0 = vreinterpretq_s16_u16( vsubl_u8(vget_low_u8(above_low), vget_low_u8(top_left))); const int16x8_t sub1 = vreinterpretq_s16_u16( vsubl_u8(vget_high_u8(above_low), vget_high_u8(top_left))); const int16x8_t sub2 = vreinterpretq_s16_u16( vsubl_u8(vget_low_u8(above_high), vget_low_u8(top_left))); const int16x8_t sub3 = vreinterpretq_s16_u16( vsubl_u8(vget_high_u8(above_high), vget_high_u8(top_left))); int16x8_t left_dup; int i, j; for (j = 0; j < 4; j++, left += 8) { const uint8x8_t left_u8 = vld1_u8(left); const int16x8_t left_s16q = convert_u8_to_s16(left_u8); int16x4_t left_s16d = vget_low_s16(left_s16q); for (i = 0; i < 2; i++, left_s16d = vget_high_s16(left_s16q)) { left_dup = vdupq_lane_s16(left_s16d, 0); tm_32_kernel(&dst, stride, left_dup, sub0, sub1, sub2, sub3); left_dup = vdupq_lane_s16(left_s16d, 1); tm_32_kernel(&dst, stride, left_dup, sub0, sub1, sub2, sub3); left_dup = vdupq_lane_s16(left_s16d, 2); tm_32_kernel(&dst, stride, left_dup, sub0, sub1, sub2, sub3); left_dup = vdupq_lane_s16(left_s16d, 3); tm_32_kernel(&dst, stride, left_dup, sub0, sub1, sub2, sub3); } } } #endif // !HAVE_NEON_ASM