/* * Loongson LASX optimized h264qpel * * Copyright (c) 2020 Loongson Technology Corporation Limited * Contributed by Shiyou Yin * * This file is part of FFmpeg. * * FFmpeg is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * FFmpeg is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with FFmpeg; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "h264qpel_lasx.h" #include "libavutil/loongarch/loongson_intrinsics.h" #include "libavutil/attributes.h" static const uint8_t luma_mask_arr[16 * 6] __attribute__((aligned(0x40))) = { /* 8 width cases */ 0, 5, 1, 6, 2, 7, 3, 8, 4, 9, 5, 10, 6, 11, 7, 12, 0, 5, 1, 6, 2, 7, 3, 8, 4, 9, 5, 10, 6, 11, 7, 12, 1, 4, 2, 5, 3, 6, 4, 7, 5, 8, 6, 9, 7, 10, 8, 11, 1, 4, 2, 5, 3, 6, 4, 7, 5, 8, 6, 9, 7, 10, 8, 11, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10 }; #define AVC_HORZ_FILTER_SH(in0, in1, mask0, mask1, mask2) \ ( { \ __m256i out0_m; \ __m256i tmp0_m; \ \ tmp0_m = __lasx_xvshuf_b(in1, in0, mask0); \ out0_m = __lasx_xvhaddw_h_b(tmp0_m, tmp0_m); \ tmp0_m = __lasx_xvshuf_b(in1, in0, mask1); \ out0_m = __lasx_xvdp2add_h_b(out0_m, minus5b, tmp0_m); \ tmp0_m = __lasx_xvshuf_b(in1, in0, mask2); \ out0_m = __lasx_xvdp2add_h_b(out0_m, plus20b, tmp0_m); \ \ out0_m; \ } ) #define AVC_DOT_SH3_SH(in0, in1, in2, coeff0, coeff1, coeff2) \ ( { \ __m256i out0_m; \ \ out0_m = __lasx_xvdp2_h_b(in0, coeff0); \ DUP2_ARG3(__lasx_xvdp2add_h_b, out0_m, in1, coeff1, out0_m,\ in2, coeff2, out0_m, out0_m); \ \ out0_m; \ } ) static av_always_inline void avc_luma_hv_qrt_and_aver_dst_16x16_lasx(uint8_t *src_x, uint8_t *src_y, uint8_t *dst, ptrdiff_t stride) { const int16_t filt_const0 = 0xfb01; const int16_t filt_const1 = 0x1414; const int16_t filt_const2 = 0x1fb; uint32_t loop_cnt; ptrdiff_t stride_2x = stride << 1; ptrdiff_t stride_3x = stride_2x + stride; ptrdiff_t stride_4x = stride << 2; __m256i tmp0, tmp1; __m256i src_hz0, src_hz1, src_hz2, src_hz3, mask0, mask1, mask2; __m256i src_vt0, src_vt1, src_vt2, src_vt3, src_vt4, src_vt5, src_vt6; __m256i src_vt7, src_vt8; __m256i src_vt10_h, src_vt21_h, src_vt32_h, src_vt43_h, src_vt54_h; __m256i src_vt65_h, src_vt76_h, src_vt87_h, filt0, filt1, filt2; __m256i hz_out0, hz_out1, hz_out2, hz_out3, vt_out0, vt_out1, vt_out2; __m256i vt_out3, out0, out1, out2, out3; __m256i minus5b = __lasx_xvldi(0xFB); __m256i plus20b = __lasx_xvldi(20); filt0 = __lasx_xvreplgr2vr_h(filt_const0); filt1 = __lasx_xvreplgr2vr_h(filt_const1); filt2 = __lasx_xvreplgr2vr_h(filt_const2); mask0 = __lasx_xvld(luma_mask_arr, 0); DUP2_ARG2(__lasx_xvld, luma_mask_arr, 32, luma_mask_arr, 64, mask1, mask2); src_vt0 = __lasx_xvld(src_y, 0); DUP4_ARG2(__lasx_xvldx, src_y, stride, src_y, stride_2x, src_y, stride_3x, src_y, stride_4x, src_vt1, src_vt2, src_vt3, src_vt4); src_y += stride_4x; src_vt0 = __lasx_xvxori_b(src_vt0, 128); DUP4_ARG2(__lasx_xvxori_b, src_vt1, 128, src_vt2, 128, src_vt3, 128, src_vt4, 128, src_vt1, src_vt2, src_vt3, src_vt4); for (loop_cnt = 4; loop_cnt--;) { src_hz0 = __lasx_xvld(src_x, 0); DUP2_ARG2(__lasx_xvldx, src_x, stride, src_x, stride_2x, src_hz1, src_hz2); src_hz3 = __lasx_xvldx(src_x, stride_3x); src_x += stride_4x; src_hz0 = __lasx_xvpermi_d(src_hz0, 0x94); src_hz1 = __lasx_xvpermi_d(src_hz1, 0x94); src_hz2 = __lasx_xvpermi_d(src_hz2, 0x94); src_hz3 = __lasx_xvpermi_d(src_hz3, 0x94); DUP4_ARG2(__lasx_xvxori_b, src_hz0, 128, src_hz1, 128, src_hz2, 128, src_hz3, 128, src_hz0, src_hz1, src_hz2, src_hz3); hz_out0 = AVC_HORZ_FILTER_SH(src_hz0, src_hz0, mask0, mask1, mask2); hz_out1 = AVC_HORZ_FILTER_SH(src_hz1, src_hz1, mask0, mask1, mask2); hz_out2 = AVC_HORZ_FILTER_SH(src_hz2, src_hz2, mask0, mask1, mask2); hz_out3 = AVC_HORZ_FILTER_SH(src_hz3, src_hz3, mask0, mask1, mask2); hz_out0 = __lasx_xvssrarni_b_h(hz_out1, hz_out0, 5); hz_out2 = __lasx_xvssrarni_b_h(hz_out3, hz_out2, 5); DUP4_ARG2(__lasx_xvldx, src_y, stride, src_y, stride_2x, src_y, stride_3x, src_y, stride_4x, src_vt5, src_vt6, src_vt7, src_vt8); src_y += stride_4x; DUP4_ARG2(__lasx_xvxori_b, src_vt5, 128, src_vt6, 128, src_vt7, 128, src_vt8, 128, src_vt5, src_vt6, src_vt7, src_vt8); DUP4_ARG3(__lasx_xvpermi_q, src_vt0, src_vt4, 0x02, src_vt1, src_vt5, 0x02, src_vt2, src_vt6, 0x02, src_vt3, src_vt7, 0x02, src_vt0, src_vt1, src_vt2, src_vt3); src_vt87_h = __lasx_xvpermi_q(src_vt4, src_vt8, 0x02); DUP4_ARG2(__lasx_xvilvh_b, src_vt1, src_vt0, src_vt2, src_vt1, src_vt3, src_vt2, src_vt87_h, src_vt3, src_hz0, src_hz1, src_hz2, src_hz3); DUP4_ARG2(__lasx_xvilvl_b, src_vt1, src_vt0, src_vt2, src_vt1, src_vt3, src_vt2, src_vt87_h, src_vt3, src_vt0, src_vt1, src_vt2, src_vt3); DUP4_ARG3(__lasx_xvpermi_q, src_vt0, src_hz0, 0x02, src_vt1, src_hz1, 0x02, src_vt2, src_hz2, 0x02, src_vt3, src_hz3, 0x02, src_vt10_h, src_vt21_h, src_vt32_h, src_vt43_h); DUP4_ARG3(__lasx_xvpermi_q, src_vt0, src_hz0, 0x13, src_vt1, src_hz1, 0x13, src_vt2, src_hz2, 0x13, src_vt3, src_hz3, 0x13, src_vt54_h, src_vt65_h, src_vt76_h, src_vt87_h); vt_out0 = AVC_DOT_SH3_SH(src_vt10_h, src_vt32_h, src_vt54_h, filt0, filt1, filt2); vt_out1 = AVC_DOT_SH3_SH(src_vt21_h, src_vt43_h, src_vt65_h, filt0, filt1, filt2); vt_out2 = AVC_DOT_SH3_SH(src_vt32_h, src_vt54_h, src_vt76_h, filt0, filt1, filt2); vt_out3 = AVC_DOT_SH3_SH(src_vt43_h, src_vt65_h, src_vt87_h, filt0, filt1, filt2); vt_out0 = __lasx_xvssrarni_b_h(vt_out1, vt_out0, 5); vt_out2 = __lasx_xvssrarni_b_h(vt_out3, vt_out2, 5); DUP2_ARG2(__lasx_xvaddwl_h_b, hz_out0, vt_out0, hz_out2, vt_out2, out0, out2); DUP2_ARG2(__lasx_xvaddwh_h_b, hz_out0, vt_out0, hz_out2, vt_out2, out1, out3); tmp0 = __lasx_xvssrarni_b_h(out1, out0, 1); tmp1 = __lasx_xvssrarni_b_h(out3, out2, 1); DUP2_ARG2(__lasx_xvxori_b, tmp0, 128, tmp1, 128, tmp0, tmp1); out0 = __lasx_xvld(dst, 0); DUP2_ARG2(__lasx_xvldx, dst, stride, dst, stride_2x, out1, out2); out3 = __lasx_xvldx(dst, stride_3x); out0 = __lasx_xvpermi_q(out0, out2, 0x02); out1 = __lasx_xvpermi_q(out1, out3, 0x02); out2 = __lasx_xvilvl_d(out1, out0); out3 = __lasx_xvilvh_d(out1, out0); out0 = __lasx_xvpermi_q(out2, out3, 0x02); out1 = __lasx_xvpermi_q(out2, out3, 0x13); tmp0 = __lasx_xvavgr_bu(out0, tmp0); tmp1 = __lasx_xvavgr_bu(out1, tmp1); __lasx_xvstelm_d(tmp0, dst, 0, 0); __lasx_xvstelm_d(tmp0, dst + stride, 0, 1); __lasx_xvstelm_d(tmp1, dst + stride_2x, 0, 0); __lasx_xvstelm_d(tmp1, dst + stride_3x, 0, 1); __lasx_xvstelm_d(tmp0, dst, 8, 2); __lasx_xvstelm_d(tmp0, dst + stride, 8, 3); __lasx_xvstelm_d(tmp1, dst + stride_2x, 8, 2); __lasx_xvstelm_d(tmp1, dst + stride_3x, 8, 3); dst += stride_4x; src_vt0 = src_vt4; src_vt1 = src_vt5; src_vt2 = src_vt6; src_vt3 = src_vt7; src_vt4 = src_vt8; } } static av_always_inline void avc_luma_hv_qrt_16x16_lasx(uint8_t *src_x, uint8_t *src_y, uint8_t *dst, ptrdiff_t stride) { const int16_t filt_const0 = 0xfb01; const int16_t filt_const1 = 0x1414; const int16_t filt_const2 = 0x1fb; uint32_t loop_cnt; ptrdiff_t stride_2x = stride << 1; ptrdiff_t stride_3x = stride_2x + stride; ptrdiff_t stride_4x = stride << 2; __m256i tmp0, tmp1; __m256i src_hz0, src_hz1, src_hz2, src_hz3, mask0, mask1, mask2; __m256i src_vt0, src_vt1, src_vt2, src_vt3, src_vt4, src_vt5, src_vt6; __m256i src_vt7, src_vt8; __m256i src_vt10_h, src_vt21_h, src_vt32_h, src_vt43_h, src_vt54_h; __m256i src_vt65_h, src_vt76_h, src_vt87_h, filt0, filt1, filt2; __m256i hz_out0, hz_out1, hz_out2, hz_out3, vt_out0, vt_out1, vt_out2; __m256i vt_out3, out0, out1, out2, out3; __m256i minus5b = __lasx_xvldi(0xFB); __m256i plus20b = __lasx_xvldi(20); filt0 = __lasx_xvreplgr2vr_h(filt_const0); filt1 = __lasx_xvreplgr2vr_h(filt_const1); filt2 = __lasx_xvreplgr2vr_h(filt_const2); mask0 = __lasx_xvld(luma_mask_arr, 0); DUP2_ARG2(__lasx_xvld, luma_mask_arr, 32, luma_mask_arr, 64, mask1, mask2); src_vt0 = __lasx_xvld(src_y, 0); DUP4_ARG2(__lasx_xvldx, src_y, stride, src_y, stride_2x, src_y, stride_3x, src_y, stride_4x, src_vt1, src_vt2, src_vt3, src_vt4); src_y += stride_4x; src_vt0 = __lasx_xvxori_b(src_vt0, 128); DUP4_ARG2(__lasx_xvxori_b, src_vt1, 128, src_vt2, 128, src_vt3, 128, src_vt4, 128, src_vt1, src_vt2, src_vt3, src_vt4); for (loop_cnt = 4; loop_cnt--;) { src_hz0 = __lasx_xvld(src_x, 0); DUP2_ARG2(__lasx_xvldx, src_x, stride, src_x, stride_2x, src_hz1, src_hz2); src_hz3 = __lasx_xvldx(src_x, stride_3x); src_x += stride_4x; src_hz0 = __lasx_xvpermi_d(src_hz0, 0x94); src_hz1 = __lasx_xvpermi_d(src_hz1, 0x94); src_hz2 = __lasx_xvpermi_d(src_hz2, 0x94); src_hz3 = __lasx_xvpermi_d(src_hz3, 0x94); DUP4_ARG2(__lasx_xvxori_b, src_hz0, 128, src_hz1, 128, src_hz2, 128, src_hz3, 128, src_hz0, src_hz1, src_hz2, src_hz3); hz_out0 = AVC_HORZ_FILTER_SH(src_hz0, src_hz0, mask0, mask1, mask2); hz_out1 = AVC_HORZ_FILTER_SH(src_hz1, src_hz1, mask0, mask1, mask2); hz_out2 = AVC_HORZ_FILTER_SH(src_hz2, src_hz2, mask0, mask1, mask2); hz_out3 = AVC_HORZ_FILTER_SH(src_hz3, src_hz3, mask0, mask1, mask2); hz_out0 = __lasx_xvssrarni_b_h(hz_out1, hz_out0, 5); hz_out2 = __lasx_xvssrarni_b_h(hz_out3, hz_out2, 5); DUP4_ARG2(__lasx_xvldx, src_y, stride, src_y, stride_2x, src_y, stride_3x, src_y, stride_4x, src_vt5, src_vt6, src_vt7, src_vt8); src_y += stride_4x; DUP4_ARG2(__lasx_xvxori_b, src_vt5, 128, src_vt6, 128, src_vt7, 128, src_vt8, 128, src_vt5, src_vt6, src_vt7, src_vt8); DUP4_ARG3(__lasx_xvpermi_q, src_vt0, src_vt4, 0x02, src_vt1, src_vt5, 0x02, src_vt2, src_vt6, 0x02, src_vt3, src_vt7, 0x02, src_vt0, src_vt1, src_vt2, src_vt3); src_vt87_h = __lasx_xvpermi_q(src_vt4, src_vt8, 0x02); DUP4_ARG2(__lasx_xvilvh_b, src_vt1, src_vt0, src_vt2, src_vt1, src_vt3, src_vt2, src_vt87_h, src_vt3, src_hz0, src_hz1, src_hz2, src_hz3); DUP4_ARG2(__lasx_xvilvl_b, src_vt1, src_vt0, src_vt2, src_vt1, src_vt3, src_vt2, src_vt87_h, src_vt3, src_vt0, src_vt1, src_vt2, src_vt3); DUP4_ARG3(__lasx_xvpermi_q, src_vt0, src_hz0, 0x02, src_vt1, src_hz1, 0x02, src_vt2, src_hz2, 0x02, src_vt3, src_hz3, 0x02, src_vt10_h, src_vt21_h, src_vt32_h, src_vt43_h); DUP4_ARG3(__lasx_xvpermi_q, src_vt0, src_hz0, 0x13, src_vt1, src_hz1, 0x13, src_vt2, src_hz2, 0x13, src_vt3, src_hz3, 0x13, src_vt54_h, src_vt65_h, src_vt76_h, src_vt87_h); vt_out0 = AVC_DOT_SH3_SH(src_vt10_h, src_vt32_h, src_vt54_h, filt0, filt1, filt2); vt_out1 = AVC_DOT_SH3_SH(src_vt21_h, src_vt43_h, src_vt65_h, filt0, filt1, filt2); vt_out2 = AVC_DOT_SH3_SH(src_vt32_h, src_vt54_h, src_vt76_h, filt0, filt1, filt2); vt_out3 = AVC_DOT_SH3_SH(src_vt43_h, src_vt65_h, src_vt87_h, filt0, filt1, filt2); vt_out0 = __lasx_xvssrarni_b_h(vt_out1, vt_out0, 5); vt_out2 = __lasx_xvssrarni_b_h(vt_out3, vt_out2, 5); DUP2_ARG2(__lasx_xvaddwl_h_b, hz_out0, vt_out0, hz_out2, vt_out2, out0, out2); DUP2_ARG2(__lasx_xvaddwh_h_b, hz_out0, vt_out0, hz_out2, vt_out2, out1, out3); tmp0 = __lasx_xvssrarni_b_h(out1, out0, 1); tmp1 = __lasx_xvssrarni_b_h(out3, out2, 1); DUP2_ARG2(__lasx_xvxori_b, tmp0, 128, tmp1, 128, tmp0, tmp1); __lasx_xvstelm_d(tmp0, dst, 0, 0); __lasx_xvstelm_d(tmp0, dst + stride, 0, 1); __lasx_xvstelm_d(tmp1, dst + stride_2x, 0, 0); __lasx_xvstelm_d(tmp1, dst + stride_3x, 0, 1); __lasx_xvstelm_d(tmp0, dst, 8, 2); __lasx_xvstelm_d(tmp0, dst + stride, 8, 3); __lasx_xvstelm_d(tmp1, dst + stride_2x, 8, 2); __lasx_xvstelm_d(tmp1, dst + stride_3x, 8, 3); dst += stride_4x; src_vt0 = src_vt4; src_vt1 = src_vt5; src_vt2 = src_vt6; src_vt3 = src_vt7; src_vt4 = src_vt8; } } /* put_pixels8_8_inline_asm: dst = src */ static av_always_inline void put_pixels8_8_inline_asm(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint64_t tmp[8]; ptrdiff_t stride_2, stride_3, stride_4; __asm__ volatile ( "slli.d %[stride_2], %[stride], 1 \n\t" "add.d %[stride_3], %[stride_2], %[stride] \n\t" "slli.d %[stride_4], %[stride_2], 1 \n\t" "ld.d %[tmp0], %[src], 0x0 \n\t" "ldx.d %[tmp1], %[src], %[stride] \n\t" "ldx.d %[tmp2], %[src], %[stride_2] \n\t" "ldx.d %[tmp3], %[src], %[stride_3] \n\t" "add.d %[src], %[src], %[stride_4] \n\t" "ld.d %[tmp4], %[src], 0x0 \n\t" "ldx.d %[tmp5], %[src], %[stride] \n\t" "ldx.d %[tmp6], %[src], %[stride_2] \n\t" "ldx.d %[tmp7], %[src], %[stride_3] \n\t" "st.d %[tmp0], %[dst], 0x0 \n\t" "stx.d %[tmp1], %[dst], %[stride] \n\t" "stx.d %[tmp2], %[dst], %[stride_2] \n\t" "stx.d %[tmp3], %[dst], %[stride_3] \n\t" "add.d %[dst], %[dst], %[stride_4] \n\t" "st.d %[tmp4], %[dst], 0x0 \n\t" "stx.d %[tmp5], %[dst], %[stride] \n\t" "stx.d %[tmp6], %[dst], %[stride_2] \n\t" "stx.d %[tmp7], %[dst], %[stride_3] \n\t" : [tmp0]"=&r"(tmp[0]), [tmp1]"=&r"(tmp[1]), [tmp2]"=&r"(tmp[2]), [tmp3]"=&r"(tmp[3]), [tmp4]"=&r"(tmp[4]), [tmp5]"=&r"(tmp[5]), [tmp6]"=&r"(tmp[6]), [tmp7]"=&r"(tmp[7]), [stride_2]"=&r"(stride_2), [stride_3]"=&r"(stride_3), [stride_4]"=&r"(stride_4), [dst]"+&r"(dst), [src]"+&r"(src) : [stride]"r"(stride) : "memory" ); } /* avg_pixels8_8_lsx : dst = avg(src, dst) * put_pixels8_l2_8_lsx: dst = avg(src, half) , half stride is 8. * avg_pixels8_l2_8_lsx: dst = avg(avg(src, half), dst) , half stride is 8.*/ static av_always_inline void avg_pixels8_8_lsx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t *tmp = dst; ptrdiff_t stride_2, stride_3, stride_4; __asm__ volatile ( /* h0~h7 */ "slli.d %[stride_2], %[stride], 1 \n\t" "add.d %[stride_3], %[stride_2], %[stride] \n\t" "slli.d %[stride_4], %[stride_2], 1 \n\t" "vld $vr0, %[src], 0 \n\t" "vldx $vr1, %[src], %[stride] \n\t" "vldx $vr2, %[src], %[stride_2] \n\t" "vldx $vr3, %[src], %[stride_3] \n\t" "add.d %[src], %[src], %[stride_4] \n\t" "vld $vr4, %[src], 0 \n\t" "vldx $vr5, %[src], %[stride] \n\t" "vldx $vr6, %[src], %[stride_2] \n\t" "vldx $vr7, %[src], %[stride_3] \n\t" "vld $vr8, %[tmp], 0 \n\t" "vldx $vr9, %[tmp], %[stride] \n\t" "vldx $vr10, %[tmp], %[stride_2] \n\t" "vldx $vr11, %[tmp], %[stride_3] \n\t" "add.d %[tmp], %[tmp], %[stride_4] \n\t" "vld $vr12, %[tmp], 0 \n\t" "vldx $vr13, %[tmp], %[stride] \n\t" "vldx $vr14, %[tmp], %[stride_2] \n\t" "vldx $vr15, %[tmp], %[stride_3] \n\t" "vavgr.bu $vr0, $vr8, $vr0 \n\t" "vavgr.bu $vr1, $vr9, $vr1 \n\t" "vavgr.bu $vr2, $vr10, $vr2 \n\t" "vavgr.bu $vr3, $vr11, $vr3 \n\t" "vavgr.bu $vr4, $vr12, $vr4 \n\t" "vavgr.bu $vr5, $vr13, $vr5 \n\t" "vavgr.bu $vr6, $vr14, $vr6 \n\t" "vavgr.bu $vr7, $vr15, $vr7 \n\t" "vstelm.d $vr0, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[stride] \n\t" "vstelm.d $vr1, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[stride] \n\t" "vstelm.d $vr2, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[stride] \n\t" "vstelm.d $vr3, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[stride] \n\t" "vstelm.d $vr4, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[stride] \n\t" "vstelm.d $vr5, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[stride] \n\t" "vstelm.d $vr6, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[stride] \n\t" "vstelm.d $vr7, %[dst], 0, 0 \n\t" : [dst]"+&r"(dst), [tmp]"+&r"(tmp), [src]"+&r"(src), [stride_2]"=&r"(stride_2), [stride_3]"=&r"(stride_3), [stride_4]"=&r"(stride_4) : [stride]"r"(stride) : "memory" ); } /* avg_pixels8_8_lsx : dst = avg(src, dst) * put_pixels8_l2_8_lsx: dst = avg(src, half) , half stride is 8. * avg_pixels8_l2_8_lsx: dst = avg(avg(src, half), dst) , half stride is 8.*/ static av_always_inline void put_pixels8_l2_8_lsx(uint8_t *dst, const uint8_t *src, const uint8_t *half, ptrdiff_t dstStride, ptrdiff_t srcStride) { ptrdiff_t stride_2, stride_3, stride_4; __asm__ volatile ( /* h0~h7 */ "slli.d %[stride_2], %[srcStride], 1 \n\t" "add.d %[stride_3], %[stride_2], %[srcStride] \n\t" "slli.d %[stride_4], %[stride_2], 1 \n\t" "vld $vr0, %[src], 0 \n\t" "vldx $vr1, %[src], %[srcStride] \n\t" "vldx $vr2, %[src], %[stride_2] \n\t" "vldx $vr3, %[src], %[stride_3] \n\t" "add.d %[src], %[src], %[stride_4] \n\t" "vld $vr4, %[src], 0 \n\t" "vldx $vr5, %[src], %[srcStride] \n\t" "vldx $vr6, %[src], %[stride_2] \n\t" "vldx $vr7, %[src], %[stride_3] \n\t" "vld $vr8, %[half], 0x00 \n\t" "vld $vr9, %[half], 0x08 \n\t" "vld $vr10, %[half], 0x10 \n\t" "vld $vr11, %[half], 0x18 \n\t" "vld $vr12, %[half], 0x20 \n\t" "vld $vr13, %[half], 0x28 \n\t" "vld $vr14, %[half], 0x30 \n\t" "vld $vr15, %[half], 0x38 \n\t" "vavgr.bu $vr0, $vr8, $vr0 \n\t" "vavgr.bu $vr1, $vr9, $vr1 \n\t" "vavgr.bu $vr2, $vr10, $vr2 \n\t" "vavgr.bu $vr3, $vr11, $vr3 \n\t" "vavgr.bu $vr4, $vr12, $vr4 \n\t" "vavgr.bu $vr5, $vr13, $vr5 \n\t" "vavgr.bu $vr6, $vr14, $vr6 \n\t" "vavgr.bu $vr7, $vr15, $vr7 \n\t" "vstelm.d $vr0, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[dstStride] \n\t" "vstelm.d $vr1, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[dstStride] \n\t" "vstelm.d $vr2, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[dstStride] \n\t" "vstelm.d $vr3, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[dstStride] \n\t" "vstelm.d $vr4, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[dstStride] \n\t" "vstelm.d $vr5, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[dstStride] \n\t" "vstelm.d $vr6, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[dstStride] \n\t" "vstelm.d $vr7, %[dst], 0, 0 \n\t" : [dst]"+&r"(dst), [half]"+&r"(half), [src]"+&r"(src), [stride_2]"=&r"(stride_2), [stride_3]"=&r"(stride_3), [stride_4]"=&r"(stride_4) : [srcStride]"r"(srcStride), [dstStride]"r"(dstStride) : "memory" ); } /* avg_pixels8_8_lsx : dst = avg(src, dst) * put_pixels8_l2_8_lsx: dst = avg(src, half) , half stride is 8. * avg_pixels8_l2_8_lsx: dst = avg(avg(src, half), dst) , half stride is 8.*/ static av_always_inline void avg_pixels8_l2_8_lsx(uint8_t *dst, const uint8_t *src, const uint8_t *half, ptrdiff_t dstStride, ptrdiff_t srcStride) { uint8_t *tmp = dst; ptrdiff_t stride_2, stride_3, stride_4; __asm__ volatile ( /* h0~h7 */ "slli.d %[stride_2], %[srcStride], 1 \n\t" "add.d %[stride_3], %[stride_2], %[srcStride] \n\t" "slli.d %[stride_4], %[stride_2], 1 \n\t" "vld $vr0, %[src], 0 \n\t" "vldx $vr1, %[src], %[srcStride] \n\t" "vldx $vr2, %[src], %[stride_2] \n\t" "vldx $vr3, %[src], %[stride_3] \n\t" "add.d %[src], %[src], %[stride_4] \n\t" "vld $vr4, %[src], 0 \n\t" "vldx $vr5, %[src], %[srcStride] \n\t" "vldx $vr6, %[src], %[stride_2] \n\t" "vldx $vr7, %[src], %[stride_3] \n\t" "vld $vr8, %[half], 0x00 \n\t" "vld $vr9, %[half], 0x08 \n\t" "vld $vr10, %[half], 0x10 \n\t" "vld $vr11, %[half], 0x18 \n\t" "vld $vr12, %[half], 0x20 \n\t" "vld $vr13, %[half], 0x28 \n\t" "vld $vr14, %[half], 0x30 \n\t" "vld $vr15, %[half], 0x38 \n\t" "vavgr.bu $vr0, $vr8, $vr0 \n\t" "vavgr.bu $vr1, $vr9, $vr1 \n\t" "vavgr.bu $vr2, $vr10, $vr2 \n\t" "vavgr.bu $vr3, $vr11, $vr3 \n\t" "vavgr.bu $vr4, $vr12, $vr4 \n\t" "vavgr.bu $vr5, $vr13, $vr5 \n\t" "vavgr.bu $vr6, $vr14, $vr6 \n\t" "vavgr.bu $vr7, $vr15, $vr7 \n\t" "slli.d %[stride_2], %[dstStride], 1 \n\t" "add.d %[stride_3], %[stride_2], %[dstStride] \n\t" "slli.d %[stride_4], %[stride_2], 1 \n\t" "vld $vr8, %[tmp], 0 \n\t" "vldx $vr9, %[tmp], %[dstStride] \n\t" "vldx $vr10, %[tmp], %[stride_2] \n\t" "vldx $vr11, %[tmp], %[stride_3] \n\t" "add.d %[tmp], %[tmp], %[stride_4] \n\t" "vld $vr12, %[tmp], 0 \n\t" "vldx $vr13, %[tmp], %[dstStride] \n\t" "vldx $vr14, %[tmp], %[stride_2] \n\t" "vldx $vr15, %[tmp], %[stride_3] \n\t" "vavgr.bu $vr0, $vr8, $vr0 \n\t" "vavgr.bu $vr1, $vr9, $vr1 \n\t" "vavgr.bu $vr2, $vr10, $vr2 \n\t" "vavgr.bu $vr3, $vr11, $vr3 \n\t" "vavgr.bu $vr4, $vr12, $vr4 \n\t" "vavgr.bu $vr5, $vr13, $vr5 \n\t" "vavgr.bu $vr6, $vr14, $vr6 \n\t" "vavgr.bu $vr7, $vr15, $vr7 \n\t" "vstelm.d $vr0, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[dstStride] \n\t" "vstelm.d $vr1, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[dstStride] \n\t" "vstelm.d $vr2, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[dstStride] \n\t" "vstelm.d $vr3, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[dstStride] \n\t" "vstelm.d $vr4, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[dstStride] \n\t" "vstelm.d $vr5, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[dstStride] \n\t" "vstelm.d $vr6, %[dst], 0, 0 \n\t" "add.d %[dst], %[dst], %[dstStride] \n\t" "vstelm.d $vr7, %[dst], 0, 0 \n\t" : [dst]"+&r"(dst), [tmp]"+&r"(tmp), [half]"+&r"(half), [src]"+&r"(src), [stride_2]"=&r"(stride_2), [stride_3]"=&r"(stride_3), [stride_4]"=&r"(stride_4) : [dstStride]"r"(dstStride), [srcStride]"r"(srcStride) : "memory" ); } /* put_pixels16_8_lsx: dst = src */ static av_always_inline void put_pixels16_8_lsx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { ptrdiff_t stride_2, stride_3, stride_4; __asm__ volatile ( "slli.d %[stride_2], %[stride], 1 \n\t" "add.d %[stride_3], %[stride_2], %[stride] \n\t" "slli.d %[stride_4], %[stride_2], 1 \n\t" "vld $vr0, %[src], 0 \n\t" "vldx $vr1, %[src], %[stride] \n\t" "vldx $vr2, %[src], %[stride_2] \n\t" "vldx $vr3, %[src], %[stride_3] \n\t" "add.d %[src], %[src], %[stride_4] \n\t" "vld $vr4, %[src], 0 \n\t" "vldx $vr5, %[src], %[stride] \n\t" "vldx $vr6, %[src], %[stride_2] \n\t" "vldx $vr7, %[src], %[stride_3] \n\t" "add.d %[src], %[src], %[stride_4] \n\t" "vst $vr0, %[dst], 0 \n\t" "vstx $vr1, %[dst], %[stride] \n\t" "vstx $vr2, %[dst], %[stride_2] \n\t" "vstx $vr3, %[dst], %[stride_3] \n\t" "add.d %[dst], %[dst], %[stride_4] \n\t" "vst $vr4, %[dst], 0 \n\t" "vstx $vr5, %[dst], %[stride] \n\t" "vstx $vr6, %[dst], %[stride_2] \n\t" "vstx $vr7, %[dst], %[stride_3] \n\t" "add.d %[dst], %[dst], %[stride_4] \n\t" "vld $vr0, %[src], 0 \n\t" "vldx $vr1, %[src], %[stride] \n\t" "vldx $vr2, %[src], %[stride_2] \n\t" "vldx $vr3, %[src], %[stride_3] \n\t" "add.d %[src], %[src], %[stride_4] \n\t" "vld $vr4, %[src], 0 \n\t" "vldx $vr5, %[src], %[stride] \n\t" "vldx $vr6, %[src], %[stride_2] \n\t" "vldx $vr7, %[src], %[stride_3] \n\t" "vst $vr0, %[dst], 0 \n\t" "vstx $vr1, %[dst], %[stride] \n\t" "vstx $vr2, %[dst], %[stride_2] \n\t" "vstx $vr3, %[dst], %[stride_3] \n\t" "add.d %[dst], %[dst], %[stride_4] \n\t" "vst $vr4, %[dst], 0 \n\t" "vstx $vr5, %[dst], %[stride] \n\t" "vstx $vr6, %[dst], %[stride_2] \n\t" "vstx $vr7, %[dst], %[stride_3] \n\t" : [dst]"+&r"(dst), [src]"+&r"(src), [stride_2]"=&r"(stride_2), [stride_3]"=&r"(stride_3), [stride_4]"=&r"(stride_4) : [stride]"r"(stride) : "memory" ); } /* avg_pixels16_8_lsx : dst = avg(src, dst) * put_pixels16_l2_8_lsx: dst = avg(src, half) , half stride is 8. * avg_pixels16_l2_8_lsx: dst = avg(avg(src, half), dst) , half stride is 8.*/ static av_always_inline void avg_pixels16_8_lsx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t *tmp = dst; ptrdiff_t stride_2, stride_3, stride_4; __asm__ volatile ( /* h0~h7 */ "slli.d %[stride_2], %[stride], 1 \n\t" "add.d %[stride_3], %[stride_2], %[stride] \n\t" "slli.d %[stride_4], %[stride_2], 1 \n\t" "vld $vr0, %[src], 0 \n\t" "vldx $vr1, %[src], %[stride] \n\t" "vldx $vr2, %[src], %[stride_2] \n\t" "vldx $vr3, %[src], %[stride_3] \n\t" "add.d %[src], %[src], %[stride_4] \n\t" "vld $vr4, %[src], 0 \n\t" "vldx $vr5, %[src], %[stride] \n\t" "vldx $vr6, %[src], %[stride_2] \n\t" "vldx $vr7, %[src], %[stride_3] \n\t" "add.d %[src], %[src], %[stride_4] \n\t" "vld $vr8, %[tmp], 0 \n\t" "vldx $vr9, %[tmp], %[stride] \n\t" "vldx $vr10, %[tmp], %[stride_2] \n\t" "vldx $vr11, %[tmp], %[stride_3] \n\t" "add.d %[tmp], %[tmp], %[stride_4] \n\t" "vld $vr12, %[tmp], 0 \n\t" "vldx $vr13, %[tmp], %[stride] \n\t" "vldx $vr14, %[tmp], %[stride_2] \n\t" "vldx $vr15, %[tmp], %[stride_3] \n\t" "add.d %[tmp], %[tmp], %[stride_4] \n\t" "vavgr.bu $vr0, $vr8, $vr0 \n\t" "vavgr.bu $vr1, $vr9, $vr1 \n\t" "vavgr.bu $vr2, $vr10, $vr2 \n\t" "vavgr.bu $vr3, $vr11, $vr3 \n\t" "vavgr.bu $vr4, $vr12, $vr4 \n\t" "vavgr.bu $vr5, $vr13, $vr5 \n\t" "vavgr.bu $vr6, $vr14, $vr6 \n\t" "vavgr.bu $vr7, $vr15, $vr7 \n\t" "vst $vr0, %[dst], 0 \n\t" "vstx $vr1, %[dst], %[stride] \n\t" "vstx $vr2, %[dst], %[stride_2] \n\t" "vstx $vr3, %[dst], %[stride_3] \n\t" "add.d %[dst], %[dst], %[stride_4] \n\t" "vst $vr4, %[dst], 0 \n\t" "vstx $vr5, %[dst], %[stride] \n\t" "vstx $vr6, %[dst], %[stride_2] \n\t" "vstx $vr7, %[dst], %[stride_3] \n\t" "add.d %[dst], %[dst], %[stride_4] \n\t" /* h8~h15 */ "vld $vr0, %[src], 0 \n\t" "vldx $vr1, %[src], %[stride] \n\t" "vldx $vr2, %[src], %[stride_2] \n\t" "vldx $vr3, %[src], %[stride_3] \n\t" "add.d %[src], %[src], %[stride_4] \n\t" "vld $vr4, %[src], 0 \n\t" "vldx $vr5, %[src], %[stride] \n\t" "vldx $vr6, %[src], %[stride_2] \n\t" "vldx $vr7, %[src], %[stride_3] \n\t" "vld $vr8, %[tmp], 0 \n\t" "vldx $vr9, %[tmp], %[stride] \n\t" "vldx $vr10, %[tmp], %[stride_2] \n\t" "vldx $vr11, %[tmp], %[stride_3] \n\t" "add.d %[tmp], %[tmp], %[stride_4] \n\t" "vld $vr12, %[tmp], 0 \n\t" "vldx $vr13, %[tmp], %[stride] \n\t" "vldx $vr14, %[tmp], %[stride_2] \n\t" "vldx $vr15, %[tmp], %[stride_3] \n\t" "vavgr.bu $vr0, $vr8, $vr0 \n\t" "vavgr.bu $vr1, $vr9, $vr1 \n\t" "vavgr.bu $vr2, $vr10, $vr2 \n\t" "vavgr.bu $vr3, $vr11, $vr3 \n\t" "vavgr.bu $vr4, $vr12, $vr4 \n\t" "vavgr.bu $vr5, $vr13, $vr5 \n\t" "vavgr.bu $vr6, $vr14, $vr6 \n\t" "vavgr.bu $vr7, $vr15, $vr7 \n\t" "vst $vr0, %[dst], 0 \n\t" "vstx $vr1, %[dst], %[stride] \n\t" "vstx $vr2, %[dst], %[stride_2] \n\t" "vstx $vr3, %[dst], %[stride_3] \n\t" "add.d %[dst], %[dst], %[stride_4] \n\t" "vst $vr4, %[dst], 0 \n\t" "vstx $vr5, %[dst], %[stride] \n\t" "vstx $vr6, %[dst], %[stride_2] \n\t" "vstx $vr7, %[dst], %[stride_3] \n\t" : [dst]"+&r"(dst), [tmp]"+&r"(tmp), [src]"+&r"(src), [stride_2]"=&r"(stride_2), [stride_3]"=&r"(stride_3), [stride_4]"=&r"(stride_4) : [stride]"r"(stride) : "memory" ); } /* avg_pixels16_8_lsx : dst = avg(src, dst) * put_pixels16_l2_8_lsx: dst = avg(src, half) , half stride is 8. * avg_pixels16_l2_8_lsx: dst = avg(avg(src, half), dst) , half stride is 8.*/ static av_always_inline void put_pixels16_l2_8_lsx(uint8_t *dst, const uint8_t *src, uint8_t *half, ptrdiff_t dstStride, ptrdiff_t srcStride) { ptrdiff_t stride_2, stride_3, stride_4; ptrdiff_t dstride_2, dstride_3, dstride_4; __asm__ volatile ( "slli.d %[stride_2], %[srcStride], 1 \n\t" "add.d %[stride_3], %[stride_2], %[srcStride] \n\t" "slli.d %[stride_4], %[stride_2], 1 \n\t" "slli.d %[dstride_2], %[dstStride], 1 \n\t" "add.d %[dstride_3], %[dstride_2], %[dstStride] \n\t" "slli.d %[dstride_4], %[dstride_2], 1 \n\t" /* h0~h7 */ "vld $vr0, %[src], 0 \n\t" "vldx $vr1, %[src], %[srcStride] \n\t" "vldx $vr2, %[src], %[stride_2] \n\t" "vldx $vr3, %[src], %[stride_3] \n\t" "add.d %[src], %[src], %[stride_4] \n\t" "vld $vr4, %[src], 0 \n\t" "vldx $vr5, %[src], %[srcStride] \n\t" "vldx $vr6, %[src], %[stride_2] \n\t" "vldx $vr7, %[src], %[stride_3] \n\t" "add.d %[src], %[src], %[stride_4] \n\t" "vld $vr8, %[half], 0x00 \n\t" "vld $vr9, %[half], 0x10 \n\t" "vld $vr10, %[half], 0x20 \n\t" "vld $vr11, %[half], 0x30 \n\t" "vld $vr12, %[half], 0x40 \n\t" "vld $vr13, %[half], 0x50 \n\t" "vld $vr14, %[half], 0x60 \n\t" "vld $vr15, %[half], 0x70 \n\t" "vavgr.bu $vr0, $vr8, $vr0 \n\t" "vavgr.bu $vr1, $vr9, $vr1 \n\t" "vavgr.bu $vr2, $vr10, $vr2 \n\t" "vavgr.bu $vr3, $vr11, $vr3 \n\t" "vavgr.bu $vr4, $vr12, $vr4 \n\t" "vavgr.bu $vr5, $vr13, $vr5 \n\t" "vavgr.bu $vr6, $vr14, $vr6 \n\t" "vavgr.bu $vr7, $vr15, $vr7 \n\t" "vst $vr0, %[dst], 0 \n\t" "vstx $vr1, %[dst], %[dstStride] \n\t" "vstx $vr2, %[dst], %[dstride_2] \n\t" "vstx $vr3, %[dst], %[dstride_3] \n\t" "add.d %[dst], %[dst], %[dstride_4] \n\t" "vst $vr4, %[dst], 0 \n\t" "vstx $vr5, %[dst], %[dstStride] \n\t" "vstx $vr6, %[dst], %[dstride_2] \n\t" "vstx $vr7, %[dst], %[dstride_3] \n\t" "add.d %[dst], %[dst], %[dstride_4] \n\t" /* h8~h15 */ "vld $vr0, %[src], 0 \n\t" "vldx $vr1, %[src], %[srcStride] \n\t" "vldx $vr2, %[src], %[stride_2] \n\t" "vldx $vr3, %[src], %[stride_3] \n\t" "add.d %[src], %[src], %[stride_4] \n\t" "vld $vr4, %[src], 0 \n\t" "vldx $vr5, %[src], %[srcStride] \n\t" "vldx $vr6, %[src], %[stride_2] \n\t" "vldx $vr7, %[src], %[stride_3] \n\t" "vld $vr8, %[half], 0x80 \n\t" "vld $vr9, %[half], 0x90 \n\t" "vld $vr10, %[half], 0xa0 \n\t" "vld $vr11, %[half], 0xb0 \n\t" "vld $vr12, %[half], 0xc0 \n\t" "vld $vr13, %[half], 0xd0 \n\t" "vld $vr14, %[half], 0xe0 \n\t" "vld $vr15, %[half], 0xf0 \n\t" "vavgr.bu $vr0, $vr8, $vr0 \n\t" "vavgr.bu $vr1, $vr9, $vr1 \n\t" "vavgr.bu $vr2, $vr10, $vr2 \n\t" "vavgr.bu $vr3, $vr11, $vr3 \n\t" "vavgr.bu $vr4, $vr12, $vr4 \n\t" "vavgr.bu $vr5, $vr13, $vr5 \n\t" "vavgr.bu $vr6, $vr14, $vr6 \n\t" "vavgr.bu $vr7, $vr15, $vr7 \n\t" "vst $vr0, %[dst], 0 \n\t" "vstx $vr1, %[dst], %[dstStride] \n\t" "vstx $vr2, %[dst], %[dstride_2] \n\t" "vstx $vr3, %[dst], %[dstride_3] \n\t" "add.d %[dst], %[dst], %[dstride_4] \n\t" "vst $vr4, %[dst], 0 \n\t" "vstx $vr5, %[dst], %[dstStride] \n\t" "vstx $vr6, %[dst], %[dstride_2] \n\t" "vstx $vr7, %[dst], %[dstride_3] \n\t" : [dst]"+&r"(dst), [half]"+&r"(half), [src]"+&r"(src), [stride_2]"=&r"(stride_2), [stride_3]"=&r"(stride_3), [stride_4]"=&r"(stride_4), [dstride_2]"=&r"(dstride_2), [dstride_3]"=&r"(dstride_3), [dstride_4]"=&r"(dstride_4) : [dstStride]"r"(dstStride), [srcStride]"r"(srcStride) : "memory" ); } /* avg_pixels16_8_lsx : dst = avg(src, dst) * put_pixels16_l2_8_lsx: dst = avg(src, half) , half stride is 8. * avg_pixels16_l2_8_lsx: dst = avg(avg(src, half), dst) , half stride is 8.*/ static av_always_inline void avg_pixels16_l2_8_lsx(uint8_t *dst, const uint8_t *src, uint8_t *half, ptrdiff_t dstStride, ptrdiff_t srcStride) { uint8_t *tmp = dst; ptrdiff_t stride_2, stride_3, stride_4; ptrdiff_t dstride_2, dstride_3, dstride_4; __asm__ volatile ( "slli.d %[stride_2], %[srcStride], 1 \n\t" "add.d %[stride_3], %[stride_2], %[srcStride] \n\t" "slli.d %[stride_4], %[stride_2], 1 \n\t" "slli.d %[dstride_2], %[dstStride], 1 \n\t" "add.d %[dstride_3], %[dstride_2], %[dstStride] \n\t" "slli.d %[dstride_4], %[dstride_2], 1 \n\t" /* h0~h7 */ "vld $vr0, %[src], 0 \n\t" "vldx $vr1, %[src], %[srcStride] \n\t" "vldx $vr2, %[src], %[stride_2] \n\t" "vldx $vr3, %[src], %[stride_3] \n\t" "add.d %[src], %[src], %[stride_4] \n\t" "vld $vr4, %[src], 0 \n\t" "vldx $vr5, %[src], %[srcStride] \n\t" "vldx $vr6, %[src], %[stride_2] \n\t" "vldx $vr7, %[src], %[stride_3] \n\t" "add.d %[src], %[src], %[stride_4] \n\t" "vld $vr8, %[half], 0x00 \n\t" "vld $vr9, %[half], 0x10 \n\t" "vld $vr10, %[half], 0x20 \n\t" "vld $vr11, %[half], 0x30 \n\t" "vld $vr12, %[half], 0x40 \n\t" "vld $vr13, %[half], 0x50 \n\t" "vld $vr14, %[half], 0x60 \n\t" "vld $vr15, %[half], 0x70 \n\t" "vavgr.bu $vr0, $vr8, $vr0 \n\t" "vavgr.bu $vr1, $vr9, $vr1 \n\t" "vavgr.bu $vr2, $vr10, $vr2 \n\t" "vavgr.bu $vr3, $vr11, $vr3 \n\t" "vavgr.bu $vr4, $vr12, $vr4 \n\t" "vavgr.bu $vr5, $vr13, $vr5 \n\t" "vavgr.bu $vr6, $vr14, $vr6 \n\t" "vavgr.bu $vr7, $vr15, $vr7 \n\t" "vld $vr8, %[tmp], 0 \n\t" "vldx $vr9, %[tmp], %[dstStride] \n\t" "vldx $vr10, %[tmp], %[dstride_2] \n\t" "vldx $vr11, %[tmp], %[dstride_3] \n\t" "add.d %[tmp], %[tmp], %[dstride_4] \n\t" "vld $vr12, %[tmp], 0 \n\t" "vldx $vr13, %[tmp], %[dstStride] \n\t" "vldx $vr14, %[tmp], %[dstride_2] \n\t" "vldx $vr15, %[tmp], %[dstride_3] \n\t" "add.d %[tmp], %[tmp], %[dstride_4] \n\t" "vavgr.bu $vr0, $vr8, $vr0 \n\t" "vavgr.bu $vr1, $vr9, $vr1 \n\t" "vavgr.bu $vr2, $vr10, $vr2 \n\t" "vavgr.bu $vr3, $vr11, $vr3 \n\t" "vavgr.bu $vr4, $vr12, $vr4 \n\t" "vavgr.bu $vr5, $vr13, $vr5 \n\t" "vavgr.bu $vr6, $vr14, $vr6 \n\t" "vavgr.bu $vr7, $vr15, $vr7 \n\t" "vst $vr0, %[dst], 0 \n\t" "vstx $vr1, %[dst], %[dstStride] \n\t" "vstx $vr2, %[dst], %[dstride_2] \n\t" "vstx $vr3, %[dst], %[dstride_3] \n\t" "add.d %[dst], %[dst], %[dstride_4] \n\t" "vst $vr4, %[dst], 0 \n\t" "vstx $vr5, %[dst], %[dstStride] \n\t" "vstx $vr6, %[dst], %[dstride_2] \n\t" "vstx $vr7, %[dst], %[dstride_3] \n\t" "add.d %[dst], %[dst], %[dstride_4] \n\t" /* h8~h15 */ "vld $vr0, %[src], 0 \n\t" "vldx $vr1, %[src], %[srcStride] \n\t" "vldx $vr2, %[src], %[stride_2] \n\t" "vldx $vr3, %[src], %[stride_3] \n\t" "add.d %[src], %[src], %[stride_4] \n\t" "vld $vr4, %[src], 0 \n\t" "vldx $vr5, %[src], %[srcStride] \n\t" "vldx $vr6, %[src], %[stride_2] \n\t" "vldx $vr7, %[src], %[stride_3] \n\t" "vld $vr8, %[half], 0x80 \n\t" "vld $vr9, %[half], 0x90 \n\t" "vld $vr10, %[half], 0xa0 \n\t" "vld $vr11, %[half], 0xb0 \n\t" "vld $vr12, %[half], 0xc0 \n\t" "vld $vr13, %[half], 0xd0 \n\t" "vld $vr14, %[half], 0xe0 \n\t" "vld $vr15, %[half], 0xf0 \n\t" "vavgr.bu $vr0, $vr8, $vr0 \n\t" "vavgr.bu $vr1, $vr9, $vr1 \n\t" "vavgr.bu $vr2, $vr10, $vr2 \n\t" "vavgr.bu $vr3, $vr11, $vr3 \n\t" "vavgr.bu $vr4, $vr12, $vr4 \n\t" "vavgr.bu $vr5, $vr13, $vr5 \n\t" "vavgr.bu $vr6, $vr14, $vr6 \n\t" "vavgr.bu $vr7, $vr15, $vr7 \n\t" "vld $vr8, %[tmp], 0 \n\t" "vldx $vr9, %[tmp], %[dstStride] \n\t" "vldx $vr10, %[tmp], %[dstride_2] \n\t" "vldx $vr11, %[tmp], %[dstride_3] \n\t" "add.d %[tmp], %[tmp], %[dstride_4] \n\t" "vld $vr12, %[tmp], 0 \n\t" "vldx $vr13, %[tmp], %[dstStride] \n\t" "vldx $vr14, %[tmp], %[dstride_2] \n\t" "vldx $vr15, %[tmp], %[dstride_3] \n\t" "vavgr.bu $vr0, $vr8, $vr0 \n\t" "vavgr.bu $vr1, $vr9, $vr1 \n\t" "vavgr.bu $vr2, $vr10, $vr2 \n\t" "vavgr.bu $vr3, $vr11, $vr3 \n\t" "vavgr.bu $vr4, $vr12, $vr4 \n\t" "vavgr.bu $vr5, $vr13, $vr5 \n\t" "vavgr.bu $vr6, $vr14, $vr6 \n\t" "vavgr.bu $vr7, $vr15, $vr7 \n\t" "vst $vr0, %[dst], 0 \n\t" "vstx $vr1, %[dst], %[dstStride] \n\t" "vstx $vr2, %[dst], %[dstride_2] \n\t" "vstx $vr3, %[dst], %[dstride_3] \n\t" "add.d %[dst], %[dst], %[dstride_4] \n\t" "vst $vr4, %[dst], 0 \n\t" "vstx $vr5, %[dst], %[dstStride] \n\t" "vstx $vr6, %[dst], %[dstride_2] \n\t" "vstx $vr7, %[dst], %[dstride_3] \n\t" : [dst]"+&r"(dst), [tmp]"+&r"(tmp), [half]"+&r"(half), [src]"+&r"(src), [stride_2]"=&r"(stride_2), [stride_3]"=&r"(stride_3), [stride_4]"=&r"(stride_4), [dstride_2]"=&r"(dstride_2), [dstride_3]"=&r"(dstride_3), [dstride_4]"=&r"(dstride_4) : [dstStride]"r"(dstStride), [srcStride]"r"(srcStride) : "memory" ); } #define QPEL8_H_LOWPASS(out_v) \ src00 = __lasx_xvld(src, - 2); \ src += srcStride; \ src10 = __lasx_xvld(src, - 2); \ src += srcStride; \ src00 = __lasx_xvpermi_q(src00, src10, 0x02); \ src01 = __lasx_xvshuf_b(src00, src00, (__m256i)mask1); \ src02 = __lasx_xvshuf_b(src00, src00, (__m256i)mask2); \ src03 = __lasx_xvshuf_b(src00, src00, (__m256i)mask3); \ src04 = __lasx_xvshuf_b(src00, src00, (__m256i)mask4); \ src05 = __lasx_xvshuf_b(src00, src00, (__m256i)mask5); \ DUP2_ARG2(__lasx_xvaddwl_h_bu, src02, src03, src01, src04, src02, src01);\ src00 = __lasx_xvaddwl_h_bu(src00, src05); \ src02 = __lasx_xvmul_h(src02, h_20); \ src01 = __lasx_xvmul_h(src01, h_5); \ src02 = __lasx_xvssub_h(src02, src01); \ src02 = __lasx_xvsadd_h(src02, src00); \ src02 = __lasx_xvsadd_h(src02, h_16); \ out_v = __lasx_xvssrani_bu_h(src02, src02, 5); \ static av_always_inline void put_h264_qpel8_h_lowpass_lasx(uint8_t *dst, const uint8_t *src, int dstStride, int srcStride) { int dstStride_2x = dstStride << 1; __m256i src00, src01, src02, src03, src04, src05, src10; __m256i out0, out1, out2, out3; __m256i h_20 = __lasx_xvldi(0x414); __m256i h_5 = __lasx_xvldi(0x405); __m256i h_16 = __lasx_xvldi(0x410); __m256i mask1 = {0x0807060504030201, 0x0, 0x0807060504030201, 0x0}; __m256i mask2 = {0x0908070605040302, 0x0, 0x0908070605040302, 0x0}; __m256i mask3 = {0x0a09080706050403, 0x0, 0x0a09080706050403, 0x0}; __m256i mask4 = {0x0b0a090807060504, 0x0, 0x0b0a090807060504, 0x0}; __m256i mask5 = {0x0c0b0a0908070605, 0x0, 0x0c0b0a0908070605, 0x0}; QPEL8_H_LOWPASS(out0) QPEL8_H_LOWPASS(out1) QPEL8_H_LOWPASS(out2) QPEL8_H_LOWPASS(out3) __lasx_xvstelm_d(out0, dst, 0, 0); __lasx_xvstelm_d(out0, dst + dstStride, 0, 2); dst += dstStride_2x; __lasx_xvstelm_d(out1, dst, 0, 0); __lasx_xvstelm_d(out1, dst + dstStride, 0, 2); dst += dstStride_2x; __lasx_xvstelm_d(out2, dst, 0, 0); __lasx_xvstelm_d(out2, dst + dstStride, 0, 2); dst += dstStride_2x; __lasx_xvstelm_d(out3, dst, 0, 0); __lasx_xvstelm_d(out3, dst + dstStride, 0, 2); } #define QPEL8_V_LOWPASS(src0, src1, src2, src3, src4, src5, src6, \ tmp0, tmp1, tmp2, tmp3, tmp4, tmp5) \ { \ tmp0 = __lasx_xvpermi_q(src0, src1, 0x02); \ tmp1 = __lasx_xvpermi_q(src1, src2, 0x02); \ tmp2 = __lasx_xvpermi_q(src2, src3, 0x02); \ tmp3 = __lasx_xvpermi_q(src3, src4, 0x02); \ tmp4 = __lasx_xvpermi_q(src4, src5, 0x02); \ tmp5 = __lasx_xvpermi_q(src5, src6, 0x02); \ DUP2_ARG2(__lasx_xvaddwl_h_bu, tmp2, tmp3, tmp1, tmp4, tmp2, tmp1); \ tmp0 = __lasx_xvaddwl_h_bu(tmp0, tmp5); \ tmp2 = __lasx_xvmul_h(tmp2, h_20); \ tmp1 = __lasx_xvmul_h(tmp1, h_5); \ tmp2 = __lasx_xvssub_h(tmp2, tmp1); \ tmp2 = __lasx_xvsadd_h(tmp2, tmp0); \ tmp2 = __lasx_xvsadd_h(tmp2, h_16); \ tmp2 = __lasx_xvssrani_bu_h(tmp2, tmp2, 5); \ } static av_always_inline void put_h264_qpel8_v_lowpass_lasx(uint8_t *dst, uint8_t *src, int dstStride, int srcStride) { int srcStride_2x = srcStride << 1; int dstStride_2x = dstStride << 1; int srcStride_4x = srcStride << 2; int srcStride_3x = srcStride_2x + srcStride; __m256i src00, src01, src02, src03, src04, src05, src06; __m256i src07, src08, src09, src10, src11, src12; __m256i tmp00, tmp01, tmp02, tmp03, tmp04, tmp05; __m256i h_20 = __lasx_xvldi(0x414); __m256i h_5 = __lasx_xvldi(0x405); __m256i h_16 = __lasx_xvldi(0x410); DUP2_ARG2(__lasx_xvld, src - srcStride_2x, 0, src - srcStride, 0, src00, src01); src02 = __lasx_xvld(src, 0); DUP4_ARG2(__lasx_xvldx, src, srcStride, src, srcStride_2x, src, srcStride_3x, src, srcStride_4x, src03, src04, src05, src06); src += srcStride_4x; DUP4_ARG2(__lasx_xvldx, src, srcStride, src, srcStride_2x, src, srcStride_3x, src, srcStride_4x, src07, src08, src09, src10); src += srcStride_4x; DUP2_ARG2(__lasx_xvldx, src, srcStride, src, srcStride_2x, src11, src12); QPEL8_V_LOWPASS(src00, src01, src02, src03, src04, src05, src06, tmp00, tmp01, tmp02, tmp03, tmp04, tmp05); __lasx_xvstelm_d(tmp02, dst, 0, 0); __lasx_xvstelm_d(tmp02, dst + dstStride, 0, 2); dst += dstStride_2x; QPEL8_V_LOWPASS(src02, src03, src04, src05, src06, src07, src08, tmp00, tmp01, tmp02, tmp03, tmp04, tmp05); __lasx_xvstelm_d(tmp02, dst, 0, 0); __lasx_xvstelm_d(tmp02, dst + dstStride, 0, 2); dst += dstStride_2x; QPEL8_V_LOWPASS(src04, src05, src06, src07, src08, src09, src10, tmp00, tmp01, tmp02, tmp03, tmp04, tmp05); __lasx_xvstelm_d(tmp02, dst, 0, 0); __lasx_xvstelm_d(tmp02, dst + dstStride, 0, 2); dst += dstStride_2x; QPEL8_V_LOWPASS(src06, src07, src08, src09, src10, src11, src12, tmp00, tmp01, tmp02, tmp03, tmp04, tmp05); __lasx_xvstelm_d(tmp02, dst, 0, 0); __lasx_xvstelm_d(tmp02, dst + dstStride, 0, 2); } static av_always_inline void avg_h264_qpel8_v_lowpass_lasx(uint8_t *dst, uint8_t *src, int dstStride, int srcStride) { int srcStride_2x = srcStride << 1; int srcStride_4x = srcStride << 2; int dstStride_2x = dstStride << 1; int dstStride_4x = dstStride << 2; int srcStride_3x = srcStride_2x + srcStride; int dstStride_3x = dstStride_2x + dstStride; __m256i src00, src01, src02, src03, src04, src05, src06; __m256i src07, src08, src09, src10, src11, src12, tmp00; __m256i tmp01, tmp02, tmp03, tmp04, tmp05, tmp06, tmp07, tmp08, tmp09; __m256i h_20 = __lasx_xvldi(0x414); __m256i h_5 = __lasx_xvldi(0x405); __m256i h_16 = __lasx_xvldi(0x410); DUP2_ARG2(__lasx_xvld, src - srcStride_2x, 0, src - srcStride, 0, src00, src01); src02 = __lasx_xvld(src, 0); DUP4_ARG2(__lasx_xvldx, src, srcStride, src, srcStride_2x, src, srcStride_3x, src, srcStride_4x, src03, src04, src05, src06); src += srcStride_4x; DUP4_ARG2(__lasx_xvldx, src, srcStride, src, srcStride_2x, src, srcStride_3x, src, srcStride_4x, src07, src08, src09, src10); src += srcStride_4x; DUP2_ARG2(__lasx_xvldx, src, srcStride, src, srcStride_2x, src11, src12); tmp06 = __lasx_xvld(dst, 0); DUP4_ARG2(__lasx_xvldx, dst, dstStride, dst, dstStride_2x, dst, dstStride_3x, dst, dstStride_4x, tmp07, tmp02, tmp03, tmp04); dst += dstStride_4x; DUP2_ARG2(__lasx_xvldx, dst, dstStride, dst, dstStride_2x, tmp05, tmp00); tmp01 = __lasx_xvldx(dst, dstStride_3x); dst -= dstStride_4x; tmp06 = __lasx_xvpermi_q(tmp06, tmp07, 0x02); tmp07 = __lasx_xvpermi_q(tmp02, tmp03, 0x02); tmp08 = __lasx_xvpermi_q(tmp04, tmp05, 0x02); tmp09 = __lasx_xvpermi_q(tmp00, tmp01, 0x02); QPEL8_V_LOWPASS(src00, src01, src02, src03, src04, src05, src06, tmp00, tmp01, tmp02, tmp03, tmp04, tmp05); tmp06 = __lasx_xvavgr_bu(tmp06, tmp02); __lasx_xvstelm_d(tmp06, dst, 0, 0); __lasx_xvstelm_d(tmp06, dst + dstStride, 0, 2); dst += dstStride_2x; QPEL8_V_LOWPASS(src02, src03, src04, src05, src06, src07, src08, tmp00, tmp01, tmp02, tmp03, tmp04, tmp05); tmp07 = __lasx_xvavgr_bu(tmp07, tmp02); __lasx_xvstelm_d(tmp07, dst, 0, 0); __lasx_xvstelm_d(tmp07, dst + dstStride, 0, 2); dst += dstStride_2x; QPEL8_V_LOWPASS(src04, src05, src06, src07, src08, src09, src10, tmp00, tmp01, tmp02, tmp03, tmp04, tmp05); tmp08 = __lasx_xvavgr_bu(tmp08, tmp02); __lasx_xvstelm_d(tmp08, dst, 0, 0); __lasx_xvstelm_d(tmp08, dst + dstStride, 0, 2); dst += dstStride_2x; QPEL8_V_LOWPASS(src06, src07, src08, src09, src10, src11, src12, tmp00, tmp01, tmp02, tmp03, tmp04, tmp05); tmp09 = __lasx_xvavgr_bu(tmp09, tmp02); __lasx_xvstelm_d(tmp09, dst, 0, 0); __lasx_xvstelm_d(tmp09, dst + dstStride, 0, 2); } #define QPEL8_HV_LOWPASS_H(tmp) \ { \ src00 = __lasx_xvld(src, -2); \ src += srcStride; \ src10 = __lasx_xvld(src, -2); \ src += srcStride; \ src00 = __lasx_xvpermi_q(src00, src10, 0x02); \ src01 = __lasx_xvshuf_b(src00, src00, (__m256i)mask1); \ src02 = __lasx_xvshuf_b(src00, src00, (__m256i)mask2); \ src03 = __lasx_xvshuf_b(src00, src00, (__m256i)mask3); \ src04 = __lasx_xvshuf_b(src00, src00, (__m256i)mask4); \ src05 = __lasx_xvshuf_b(src00, src00, (__m256i)mask5); \ DUP2_ARG2(__lasx_xvaddwl_h_bu, src02, src03, src01, src04, src02, src01);\ src00 = __lasx_xvaddwl_h_bu(src00, src05); \ src02 = __lasx_xvmul_h(src02, h_20); \ src01 = __lasx_xvmul_h(src01, h_5); \ src02 = __lasx_xvssub_h(src02, src01); \ tmp = __lasx_xvsadd_h(src02, src00); \ } #define QPEL8_HV_LOWPASS_V(src0, src1, src2, src3, \ src4, src5, temp0, temp1, \ temp2, temp3, temp4, temp5, \ out) \ { \ DUP2_ARG2(__lasx_xvaddwl_w_h, src2, src3, src1, src4, temp0, temp2); \ DUP2_ARG2(__lasx_xvaddwh_w_h, src2, src3, src1, src4, temp1, temp3); \ temp4 = __lasx_xvaddwl_w_h(src0, src5); \ temp5 = __lasx_xvaddwh_w_h(src0, src5); \ temp0 = __lasx_xvmul_w(temp0, w_20); \ temp1 = __lasx_xvmul_w(temp1, w_20); \ temp2 = __lasx_xvmul_w(temp2, w_5); \ temp3 = __lasx_xvmul_w(temp3, w_5); \ temp0 = __lasx_xvssub_w(temp0, temp2); \ temp1 = __lasx_xvssub_w(temp1, temp3); \ temp0 = __lasx_xvsadd_w(temp0, temp4); \ temp1 = __lasx_xvsadd_w(temp1, temp5); \ temp0 = __lasx_xvsadd_w(temp0, w_512); \ temp1 = __lasx_xvsadd_w(temp1, w_512); \ temp0 = __lasx_xvssrani_hu_w(temp0, temp0, 10); \ temp1 = __lasx_xvssrani_hu_w(temp1, temp1, 10); \ temp0 = __lasx_xvpackev_d(temp1, temp0); \ out = __lasx_xvssrani_bu_h(temp0, temp0, 0); \ } static av_always_inline void put_h264_qpel8_hv_lowpass_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t dstStride, ptrdiff_t srcStride) { __m256i src00, src01, src02, src03, src04, src05, src10; __m256i tmp0, tmp1, tmp2, tmp3, tmp4, tmp5, tmp6; __m256i tmp7, tmp8, tmp9, tmp10, tmp11, tmp12; __m256i h_20 = __lasx_xvldi(0x414); __m256i h_5 = __lasx_xvldi(0x405); __m256i w_20 = __lasx_xvldi(0x814); __m256i w_5 = __lasx_xvldi(0x805); __m256i w_512 = {512}; __m256i mask1 = {0x0807060504030201, 0x0, 0x0807060504030201, 0x0}; __m256i mask2 = {0x0908070605040302, 0x0, 0x0908070605040302, 0x0}; __m256i mask3 = {0x0a09080706050403, 0x0, 0x0a09080706050403, 0x0}; __m256i mask4 = {0x0b0a090807060504, 0x0, 0x0b0a090807060504, 0x0}; __m256i mask5 = {0x0c0b0a0908070605, 0x0, 0x0c0b0a0908070605, 0x0}; w_512 = __lasx_xvreplve0_w(w_512); src -= srcStride << 1; QPEL8_HV_LOWPASS_H(tmp0) QPEL8_HV_LOWPASS_H(tmp2) QPEL8_HV_LOWPASS_H(tmp4) QPEL8_HV_LOWPASS_H(tmp6) QPEL8_HV_LOWPASS_H(tmp8) QPEL8_HV_LOWPASS_H(tmp10) QPEL8_HV_LOWPASS_H(tmp12) tmp11 = __lasx_xvpermi_q(tmp12, tmp10, 0x21); tmp9 = __lasx_xvpermi_q(tmp10, tmp8, 0x21); tmp7 = __lasx_xvpermi_q(tmp8, tmp6, 0x21); tmp5 = __lasx_xvpermi_q(tmp6, tmp4, 0x21); tmp3 = __lasx_xvpermi_q(tmp4, tmp2, 0x21); tmp1 = __lasx_xvpermi_q(tmp2, tmp0, 0x21); QPEL8_HV_LOWPASS_V(tmp0, tmp1, tmp2, tmp3, tmp4, tmp5, src00, src01, src02, src03, src04, src05, tmp0) QPEL8_HV_LOWPASS_V(tmp2, tmp3, tmp4, tmp5, tmp6, tmp7, src00, src01, src02, src03, src04, src05, tmp2) QPEL8_HV_LOWPASS_V(tmp4, tmp5, tmp6, tmp7, tmp8, tmp9, src00, src01, src02, src03, src04, src05, tmp4) QPEL8_HV_LOWPASS_V(tmp6, tmp7, tmp8, tmp9, tmp10, tmp11, src00, src01, src02, src03, src04, src05, tmp6) __lasx_xvstelm_d(tmp0, dst, 0, 0); dst += dstStride; __lasx_xvstelm_d(tmp0, dst, 0, 2); dst += dstStride; __lasx_xvstelm_d(tmp2, dst, 0, 0); dst += dstStride; __lasx_xvstelm_d(tmp2, dst, 0, 2); dst += dstStride; __lasx_xvstelm_d(tmp4, dst, 0, 0); dst += dstStride; __lasx_xvstelm_d(tmp4, dst, 0, 2); dst += dstStride; __lasx_xvstelm_d(tmp6, dst, 0, 0); dst += dstStride; __lasx_xvstelm_d(tmp6, dst, 0, 2); } static av_always_inline void avg_h264_qpel8_h_lowpass_lasx(uint8_t *dst, const uint8_t *src, int dstStride, int srcStride) { int dstStride_2x = dstStride << 1; int dstStride_4x = dstStride << 2; int dstStride_3x = dstStride_2x + dstStride; __m256i src00, src01, src02, src03, src04, src05, src10; __m256i dst00, dst01, dst0, dst1, dst2, dst3; __m256i out0, out1, out2, out3; __m256i h_20 = __lasx_xvldi(0x414); __m256i h_5 = __lasx_xvldi(0x405); __m256i h_16 = __lasx_xvldi(0x410); __m256i mask1 = {0x0807060504030201, 0x0, 0x0807060504030201, 0x0}; __m256i mask2 = {0x0908070605040302, 0x0, 0x0908070605040302, 0x0}; __m256i mask3 = {0x0a09080706050403, 0x0, 0x0a09080706050403, 0x0}; __m256i mask4 = {0x0b0a090807060504, 0x0, 0x0b0a090807060504, 0x0}; __m256i mask5 = {0x0c0b0a0908070605, 0x0, 0x0c0b0a0908070605, 0x0}; QPEL8_H_LOWPASS(out0) QPEL8_H_LOWPASS(out1) QPEL8_H_LOWPASS(out2) QPEL8_H_LOWPASS(out3) src00 = __lasx_xvld(dst, 0); DUP4_ARG2(__lasx_xvldx, dst, dstStride, dst, dstStride_2x, dst, dstStride_3x, dst, dstStride_4x, src01, src02, src03, src04); dst += dstStride_4x; DUP2_ARG2(__lasx_xvldx, dst, dstStride, dst, dstStride_2x, src05, dst00); dst01 = __lasx_xvldx(dst, dstStride_3x); dst -= dstStride_4x; dst0 = __lasx_xvpermi_q(src00, src01, 0x02); dst1 = __lasx_xvpermi_q(src02, src03, 0x02); dst2 = __lasx_xvpermi_q(src04, src05, 0x02); dst3 = __lasx_xvpermi_q(dst00, dst01, 0x02); dst0 = __lasx_xvavgr_bu(dst0, out0); dst1 = __lasx_xvavgr_bu(dst1, out1); dst2 = __lasx_xvavgr_bu(dst2, out2); dst3 = __lasx_xvavgr_bu(dst3, out3); __lasx_xvstelm_d(dst0, dst, 0, 0); __lasx_xvstelm_d(dst0, dst + dstStride, 0, 2); __lasx_xvstelm_d(dst1, dst + dstStride_2x, 0, 0); __lasx_xvstelm_d(dst1, dst + dstStride_3x, 0, 2); dst += dstStride_4x; __lasx_xvstelm_d(dst2, dst, 0, 0); __lasx_xvstelm_d(dst2, dst + dstStride, 0, 2); __lasx_xvstelm_d(dst3, dst + dstStride_2x, 0, 0); __lasx_xvstelm_d(dst3, dst + dstStride_3x, 0, 2); } static av_always_inline void avg_h264_qpel8_hv_lowpass_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t dstStride, ptrdiff_t srcStride) { __m256i src00, src01, src02, src03, src04, src05, src10; __m256i tmp0, tmp1, tmp2, tmp3, tmp4, tmp5, tmp6; __m256i tmp7, tmp8, tmp9, tmp10, tmp11, tmp12; __m256i h_20 = __lasx_xvldi(0x414); __m256i h_5 = __lasx_xvldi(0x405); __m256i w_20 = __lasx_xvldi(0x814); __m256i w_5 = __lasx_xvldi(0x805); __m256i w_512 = {512}; __m256i mask1 = {0x0807060504030201, 0x0, 0x0807060504030201, 0x0}; __m256i mask2 = {0x0908070605040302, 0x0, 0x0908070605040302, 0x0}; __m256i mask3 = {0x0a09080706050403, 0x0, 0x0a09080706050403, 0x0}; __m256i mask4 = {0x0b0a090807060504, 0x0, 0x0b0a090807060504, 0x0}; __m256i mask5 = {0x0c0b0a0908070605, 0x0, 0x0c0b0a0908070605, 0x0}; ptrdiff_t dstStride_2x = dstStride << 1; ptrdiff_t dstStride_4x = dstStride << 2; ptrdiff_t dstStride_3x = dstStride_2x + dstStride; w_512 = __lasx_xvreplve0_w(w_512); src -= srcStride << 1; QPEL8_HV_LOWPASS_H(tmp0) QPEL8_HV_LOWPASS_H(tmp2) QPEL8_HV_LOWPASS_H(tmp4) QPEL8_HV_LOWPASS_H(tmp6) QPEL8_HV_LOWPASS_H(tmp8) QPEL8_HV_LOWPASS_H(tmp10) QPEL8_HV_LOWPASS_H(tmp12) tmp11 = __lasx_xvpermi_q(tmp12, tmp10, 0x21); tmp9 = __lasx_xvpermi_q(tmp10, tmp8, 0x21); tmp7 = __lasx_xvpermi_q(tmp8, tmp6, 0x21); tmp5 = __lasx_xvpermi_q(tmp6, tmp4, 0x21); tmp3 = __lasx_xvpermi_q(tmp4, tmp2, 0x21); tmp1 = __lasx_xvpermi_q(tmp2, tmp0, 0x21); QPEL8_HV_LOWPASS_V(tmp0, tmp1, tmp2, tmp3, tmp4, tmp5, src00, src01, src02, src03, src04, src05, tmp0) QPEL8_HV_LOWPASS_V(tmp2, tmp3, tmp4, tmp5, tmp6, tmp7, src00, src01, src02, src03, src04, src05, tmp2) QPEL8_HV_LOWPASS_V(tmp4, tmp5, tmp6, tmp7, tmp8, tmp9, src00, src01, src02, src03, src04, src05, tmp4) QPEL8_HV_LOWPASS_V(tmp6, tmp7, tmp8, tmp9, tmp10, tmp11, src00, src01, src02, src03, src04, src05, tmp6) src00 = __lasx_xvld(dst, 0); DUP4_ARG2(__lasx_xvldx, dst, dstStride, dst, dstStride_2x, dst, dstStride_3x, dst, dstStride_4x, src01, src02, src03, src04); dst += dstStride_4x; DUP2_ARG2(__lasx_xvldx, dst, dstStride, dst, dstStride_2x, src05, tmp8); tmp9 = __lasx_xvldx(dst, dstStride_3x); dst -= dstStride_4x; tmp1 = __lasx_xvpermi_q(src00, src01, 0x02); tmp3 = __lasx_xvpermi_q(src02, src03, 0x02); tmp5 = __lasx_xvpermi_q(src04, src05, 0x02); tmp7 = __lasx_xvpermi_q(tmp8, tmp9, 0x02); tmp0 = __lasx_xvavgr_bu(tmp0, tmp1); tmp2 = __lasx_xvavgr_bu(tmp2, tmp3); tmp4 = __lasx_xvavgr_bu(tmp4, tmp5); tmp6 = __lasx_xvavgr_bu(tmp6, tmp7); __lasx_xvstelm_d(tmp0, dst, 0, 0); dst += dstStride; __lasx_xvstelm_d(tmp0, dst, 0, 2); dst += dstStride; __lasx_xvstelm_d(tmp2, dst, 0, 0); dst += dstStride; __lasx_xvstelm_d(tmp2, dst, 0, 2); dst += dstStride; __lasx_xvstelm_d(tmp4, dst, 0, 0); dst += dstStride; __lasx_xvstelm_d(tmp4, dst, 0, 2); dst += dstStride; __lasx_xvstelm_d(tmp6, dst, 0, 0); dst += dstStride; __lasx_xvstelm_d(tmp6, dst, 0, 2); } static av_always_inline void put_h264_qpel16_h_lowpass_lasx(uint8_t *dst, const uint8_t *src, int dstStride, int srcStride) { put_h264_qpel8_h_lowpass_lasx(dst, src, dstStride, srcStride); put_h264_qpel8_h_lowpass_lasx(dst+8, src+8, dstStride, srcStride); src += srcStride << 3; dst += dstStride << 3; put_h264_qpel8_h_lowpass_lasx(dst, src, dstStride, srcStride); put_h264_qpel8_h_lowpass_lasx(dst+8, src+8, dstStride, srcStride); } static av_always_inline void avg_h264_qpel16_h_lowpass_lasx(uint8_t *dst, const uint8_t *src, int dstStride, int srcStride) { avg_h264_qpel8_h_lowpass_lasx(dst, src, dstStride, srcStride); avg_h264_qpel8_h_lowpass_lasx(dst+8, src+8, dstStride, srcStride); src += srcStride << 3; dst += dstStride << 3; avg_h264_qpel8_h_lowpass_lasx(dst, src, dstStride, srcStride); avg_h264_qpel8_h_lowpass_lasx(dst+8, src+8, dstStride, srcStride); } static void put_h264_qpel16_v_lowpass_lasx(uint8_t *dst, const uint8_t *src, int dstStride, int srcStride) { put_h264_qpel8_v_lowpass_lasx(dst, (uint8_t*)src, dstStride, srcStride); put_h264_qpel8_v_lowpass_lasx(dst+8, (uint8_t*)src+8, dstStride, srcStride); src += 8*srcStride; dst += 8*dstStride; put_h264_qpel8_v_lowpass_lasx(dst, (uint8_t*)src, dstStride, srcStride); put_h264_qpel8_v_lowpass_lasx(dst+8, (uint8_t*)src+8, dstStride, srcStride); } static void avg_h264_qpel16_v_lowpass_lasx(uint8_t *dst, const uint8_t *src, int dstStride, int srcStride) { avg_h264_qpel8_v_lowpass_lasx(dst, (uint8_t*)src, dstStride, srcStride); avg_h264_qpel8_v_lowpass_lasx(dst+8, (uint8_t*)src+8, dstStride, srcStride); src += 8*srcStride; dst += 8*dstStride; avg_h264_qpel8_v_lowpass_lasx(dst, (uint8_t*)src, dstStride, srcStride); avg_h264_qpel8_v_lowpass_lasx(dst+8, (uint8_t*)src+8, dstStride, srcStride); } static void put_h264_qpel16_hv_lowpass_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t dstStride, ptrdiff_t srcStride) { put_h264_qpel8_hv_lowpass_lasx(dst, src, dstStride, srcStride); put_h264_qpel8_hv_lowpass_lasx(dst + 8, src + 8, dstStride, srcStride); src += srcStride << 3; dst += dstStride << 3; put_h264_qpel8_hv_lowpass_lasx(dst, src, dstStride, srcStride); put_h264_qpel8_hv_lowpass_lasx(dst + 8, src + 8, dstStride, srcStride); } static void avg_h264_qpel16_hv_lowpass_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t dstStride, ptrdiff_t srcStride) { avg_h264_qpel8_hv_lowpass_lasx(dst, src, dstStride, srcStride); avg_h264_qpel8_hv_lowpass_lasx(dst + 8, src + 8, dstStride, srcStride); src += srcStride << 3; dst += dstStride << 3; avg_h264_qpel8_hv_lowpass_lasx(dst, src, dstStride, srcStride); avg_h264_qpel8_hv_lowpass_lasx(dst + 8, src + 8, dstStride, srcStride); } void ff_put_h264_qpel8_mc00_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { /* In mmi optimization, it used function ff_put_pixels8_8_mmi * which implemented in hpeldsp_mmi.c */ put_pixels8_8_inline_asm(dst, src, stride); } void ff_put_h264_qpel8_mc10_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t half[64]; put_h264_qpel8_h_lowpass_lasx(half, src, 8, stride); /* in qpel8, the stride of half and height of block is 8 */ put_pixels8_l2_8_lsx(dst, src, half, stride, stride); } void ff_put_h264_qpel8_mc20_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { put_h264_qpel8_h_lowpass_lasx(dst, src, stride, stride); } void ff_put_h264_qpel8_mc30_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t half[64]; put_h264_qpel8_h_lowpass_lasx(half, src, 8, stride); put_pixels8_l2_8_lsx(dst, src+1, half, stride, stride); } void ff_put_h264_qpel8_mc01_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t half[64]; put_h264_qpel8_v_lowpass_lasx(half, (uint8_t*)src, 8, stride); put_pixels8_l2_8_lsx(dst, src, half, stride, stride); } void ff_put_h264_qpel8_mc11_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t halfH[64]; uint8_t halfV[64]; put_h264_qpel8_h_lowpass_lasx(halfH, src, 8, stride); put_h264_qpel8_v_lowpass_lasx(halfV, (uint8_t*)src, 8, stride); put_pixels8_l2_8_lsx(dst, halfH, halfV, stride, 8); } void ff_put_h264_qpel8_mc21_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t temp[128]; uint8_t *const halfH = temp; uint8_t *const halfHV = temp + 64; put_h264_qpel8_h_lowpass_lasx(halfH, src, 8, stride); put_h264_qpel8_hv_lowpass_lasx(halfHV, src, 8, stride); put_pixels8_l2_8_lsx(dst, halfH, halfHV, stride, 8); } void ff_put_h264_qpel8_mc31_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t halfH[64]; uint8_t halfV[64]; put_h264_qpel8_h_lowpass_lasx(halfH, src, 8, stride); put_h264_qpel8_v_lowpass_lasx(halfV, (uint8_t*)src + 1, 8, stride); put_pixels8_l2_8_lsx(dst, halfH, halfV, stride, 8); } void ff_put_h264_qpel8_mc02_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { put_h264_qpel8_v_lowpass_lasx(dst, (uint8_t*)src, stride, stride); } void ff_put_h264_qpel8_mc12_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t temp[128]; uint8_t *const halfHV = temp; uint8_t *const halfH = temp + 64; put_h264_qpel8_hv_lowpass_lasx(halfHV, src, 8, stride); put_h264_qpel8_v_lowpass_lasx(halfH, (uint8_t*)src, 8, stride); put_pixels8_l2_8_lsx(dst, halfH, halfHV, stride, 8); } void ff_put_h264_qpel8_mc22_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { put_h264_qpel8_hv_lowpass_lasx(dst, src, stride, stride); } void ff_put_h264_qpel8_mc32_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t temp[128]; uint8_t *const halfHV = temp; uint8_t *const halfH = temp + 64; put_h264_qpel8_hv_lowpass_lasx(halfHV, src, 8, stride); put_h264_qpel8_v_lowpass_lasx(halfH, (uint8_t*)src + 1, 8, stride); put_pixels8_l2_8_lsx(dst, halfH, halfHV, stride, 8); } void ff_put_h264_qpel8_mc03_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t half[64]; put_h264_qpel8_v_lowpass_lasx(half, (uint8_t*)src, 8, stride); put_pixels8_l2_8_lsx(dst, src + stride, half, stride, stride); } void ff_put_h264_qpel8_mc13_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t halfH[64]; uint8_t halfV[64]; put_h264_qpel8_h_lowpass_lasx(halfH, src + stride, 8, stride); put_h264_qpel8_v_lowpass_lasx(halfV, (uint8_t*)src, 8, stride); put_pixels8_l2_8_lsx(dst, halfH, halfV, stride, 8); } void ff_put_h264_qpel8_mc23_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t temp[128]; uint8_t *const halfH = temp; uint8_t *const halfHV = temp + 64; put_h264_qpel8_h_lowpass_lasx(halfH, src + stride, 8, stride); put_h264_qpel8_hv_lowpass_lasx(halfHV, src, 8, stride); put_pixels8_l2_8_lsx(dst, halfH, halfHV, stride, 8); } void ff_put_h264_qpel8_mc33_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t halfH[64]; uint8_t halfV[64]; put_h264_qpel8_h_lowpass_lasx(halfH, src + stride, 8, stride); put_h264_qpel8_v_lowpass_lasx(halfV, (uint8_t*)src + 1, 8, stride); put_pixels8_l2_8_lsx(dst, halfH, halfV, stride, 8); } void ff_avg_h264_qpel8_mc00_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { /* In mmi optimization, it used function ff_avg_pixels8_8_mmi * which implemented in hpeldsp_mmi.c */ avg_pixels8_8_lsx(dst, src, stride); } void ff_avg_h264_qpel8_mc10_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t half[64]; put_h264_qpel8_h_lowpass_lasx(half, src, 8, stride); avg_pixels8_l2_8_lsx(dst, src, half, stride, stride); } void ff_avg_h264_qpel8_mc20_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { avg_h264_qpel8_h_lowpass_lasx(dst, src, stride, stride); } void ff_avg_h264_qpel8_mc30_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t half[64]; put_h264_qpel8_h_lowpass_lasx(half, src, 8, stride); avg_pixels8_l2_8_lsx(dst, src+1, half, stride, stride); } void ff_avg_h264_qpel8_mc11_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t halfH[64]; uint8_t halfV[64]; put_h264_qpel8_h_lowpass_lasx(halfH, src, 8, stride); put_h264_qpel8_v_lowpass_lasx(halfV, (uint8_t*)src, 8, stride); avg_pixels8_l2_8_lsx(dst, halfH, halfV, stride, 8); } void ff_avg_h264_qpel8_mc21_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t temp[128]; uint8_t *const halfH = temp; uint8_t *const halfHV = temp + 64; put_h264_qpel8_h_lowpass_lasx(halfH, src, 8, stride); put_h264_qpel8_hv_lowpass_lasx(halfHV, src, 8, stride); avg_pixels8_l2_8_lsx(dst, halfH, halfHV, stride, 8); } void ff_avg_h264_qpel8_mc31_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t halfH[64]; uint8_t halfV[64]; put_h264_qpel8_h_lowpass_lasx(halfH, src, 8, stride); put_h264_qpel8_v_lowpass_lasx(halfV, (uint8_t*)src + 1, 8, stride); avg_pixels8_l2_8_lsx(dst, halfH, halfV, stride, 8); } void ff_avg_h264_qpel8_mc02_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { avg_h264_qpel8_v_lowpass_lasx(dst, (uint8_t*)src, stride, stride); } void ff_avg_h264_qpel8_mc12_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t temp[128]; uint8_t *const halfHV = temp; uint8_t *const halfH = temp + 64; put_h264_qpel8_hv_lowpass_lasx(halfHV, src, 8, stride); put_h264_qpel8_v_lowpass_lasx(halfH, (uint8_t*)src, 8, stride); avg_pixels8_l2_8_lsx(dst, halfH, halfHV, stride, 8); } void ff_avg_h264_qpel8_mc22_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { avg_h264_qpel8_hv_lowpass_lasx(dst, src, stride, stride); } void ff_avg_h264_qpel8_mc32_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t temp[128]; uint8_t *const halfHV = temp; uint8_t *const halfH = temp + 64; put_h264_qpel8_hv_lowpass_lasx(halfHV, src, 8, stride); put_h264_qpel8_v_lowpass_lasx(halfH, (uint8_t*)src + 1, 8, stride); avg_pixels8_l2_8_lsx(dst, halfH, halfHV, stride, 8); } void ff_avg_h264_qpel8_mc13_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t halfH[64]; uint8_t halfV[64]; put_h264_qpel8_h_lowpass_lasx(halfH, src + stride, 8, stride); put_h264_qpel8_v_lowpass_lasx(halfV, (uint8_t*)src, 8, stride); avg_pixels8_l2_8_lsx(dst, halfH, halfV, stride, 8); } void ff_avg_h264_qpel8_mc23_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t temp[128]; uint8_t *const halfH = temp; uint8_t *const halfHV = temp + 64; put_h264_qpel8_h_lowpass_lasx(halfH, src + stride, 8, stride); put_h264_qpel8_hv_lowpass_lasx(halfHV, src, 8, stride); avg_pixels8_l2_8_lsx(dst, halfH, halfHV, stride, 8); } void ff_avg_h264_qpel8_mc33_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t halfH[64]; uint8_t halfV[64]; put_h264_qpel8_h_lowpass_lasx(halfH, src + stride, 8, stride); put_h264_qpel8_v_lowpass_lasx(halfV, (uint8_t*)src + 1, 8, stride); avg_pixels8_l2_8_lsx(dst, halfH, halfV, stride, 8); } void ff_put_h264_qpel16_mc00_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { /* In mmi optimization, it used function ff_put_pixels16_8_mmi * which implemented in hpeldsp_mmi.c */ put_pixels16_8_lsx(dst, src, stride); } void ff_put_h264_qpel16_mc10_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t half[256]; put_h264_qpel16_h_lowpass_lasx(half, src, 16, stride); put_pixels16_l2_8_lsx(dst, src, half, stride, stride); } void ff_put_h264_qpel16_mc20_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { put_h264_qpel16_h_lowpass_lasx(dst, src, stride, stride); } void ff_put_h264_qpel16_mc30_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t half[256]; put_h264_qpel16_h_lowpass_lasx(half, src, 16, stride); put_pixels16_l2_8_lsx(dst, src+1, half, stride, stride); } void ff_put_h264_qpel16_mc01_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t half[256]; put_h264_qpel16_v_lowpass_lasx(half, src, 16, stride); put_pixels16_l2_8_lsx(dst, src, half, stride, stride); } void ff_put_h264_qpel16_mc11_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { avc_luma_hv_qrt_16x16_lasx((uint8_t*)src - 2, (uint8_t*)src - (stride * 2), dst, stride); } void ff_put_h264_qpel16_mc21_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t temp[512]; uint8_t *const halfH = temp; uint8_t *const halfHV = temp + 256; put_h264_qpel16_h_lowpass_lasx(halfH, src, 16, stride); put_h264_qpel16_hv_lowpass_lasx(halfHV, src, 16, stride); put_pixels16_l2_8_lsx(dst, halfH, halfHV, stride, 16); } void ff_put_h264_qpel16_mc31_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { avc_luma_hv_qrt_16x16_lasx((uint8_t*)src - 2, (uint8_t*)src - (stride * 2) + 1, dst, stride); } void ff_put_h264_qpel16_mc02_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { put_h264_qpel16_v_lowpass_lasx(dst, src, stride, stride); } void ff_put_h264_qpel16_mc12_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t temp[512]; uint8_t *const halfHV = temp; uint8_t *const halfH = temp + 256; put_h264_qpel16_hv_lowpass_lasx(halfHV, src, 16, stride); put_h264_qpel16_v_lowpass_lasx(halfH, src, 16, stride); put_pixels16_l2_8_lsx(dst, halfH, halfHV, stride, 16); } void ff_put_h264_qpel16_mc22_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { put_h264_qpel16_hv_lowpass_lasx(dst, src, stride, stride); } void ff_put_h264_qpel16_mc32_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t temp[512]; uint8_t *const halfHV = temp; uint8_t *const halfH = temp + 256; put_h264_qpel16_hv_lowpass_lasx(halfHV, src, 16, stride); put_h264_qpel16_v_lowpass_lasx(halfH, src + 1, 16, stride); put_pixels16_l2_8_lsx(dst, halfH, halfHV, stride, 16); } void ff_put_h264_qpel16_mc03_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t half[256]; put_h264_qpel16_v_lowpass_lasx(half, src, 16, stride); put_pixels16_l2_8_lsx(dst, src+stride, half, stride, stride); } void ff_put_h264_qpel16_mc13_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { avc_luma_hv_qrt_16x16_lasx((uint8_t*)src + stride - 2, (uint8_t*)src - (stride * 2), dst, stride); } void ff_put_h264_qpel16_mc23_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t temp[512]; uint8_t *const halfH = temp; uint8_t *const halfHV = temp + 256; put_h264_qpel16_h_lowpass_lasx(halfH, src + stride, 16, stride); put_h264_qpel16_hv_lowpass_lasx(halfHV, src, 16, stride); put_pixels16_l2_8_lsx(dst, halfH, halfHV, stride, 16); } void ff_put_h264_qpel16_mc33_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { avc_luma_hv_qrt_16x16_lasx((uint8_t*)src + stride - 2, (uint8_t*)src - (stride * 2) + 1, dst, stride); } void ff_avg_h264_qpel16_mc00_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { /* In mmi optimization, it used function ff_avg_pixels16_8_mmi * which implemented in hpeldsp_mmi.c */ avg_pixels16_8_lsx(dst, src, stride); } void ff_avg_h264_qpel16_mc10_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t half[256]; put_h264_qpel16_h_lowpass_lasx(half, src, 16, stride); avg_pixels16_l2_8_lsx(dst, src, half, stride, stride); } void ff_avg_h264_qpel16_mc20_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { avg_h264_qpel16_h_lowpass_lasx(dst, src, stride, stride); } void ff_avg_h264_qpel16_mc30_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t half[256]; put_h264_qpel16_h_lowpass_lasx(half, src, 16, stride); avg_pixels16_l2_8_lsx(dst, src+1, half, stride, stride); } void ff_avg_h264_qpel16_mc01_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t half[256]; put_h264_qpel16_v_lowpass_lasx(half, src, 16, stride); avg_pixels16_l2_8_lsx(dst, src, half, stride, stride); } void ff_avg_h264_qpel16_mc11_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { avc_luma_hv_qrt_and_aver_dst_16x16_lasx((uint8_t*)src - 2, (uint8_t*)src - (stride * 2), dst, stride); } void ff_avg_h264_qpel16_mc21_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t temp[512]; uint8_t *const halfH = temp; uint8_t *const halfHV = temp + 256; put_h264_qpel16_h_lowpass_lasx(halfH, src, 16, stride); put_h264_qpel16_hv_lowpass_lasx(halfHV, src, 16, stride); avg_pixels16_l2_8_lsx(dst, halfH, halfHV, stride, 16); } void ff_avg_h264_qpel16_mc31_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { avc_luma_hv_qrt_and_aver_dst_16x16_lasx((uint8_t*)src - 2, (uint8_t*)src - (stride * 2) + 1, dst, stride); } void ff_avg_h264_qpel16_mc02_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { avg_h264_qpel16_v_lowpass_lasx(dst, src, stride, stride); } void ff_avg_h264_qpel16_mc12_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t temp[512]; uint8_t *const halfHV = temp; uint8_t *const halfH = temp + 256; put_h264_qpel16_hv_lowpass_lasx(halfHV, src, 16, stride); put_h264_qpel16_v_lowpass_lasx(halfH, src, 16, stride); avg_pixels16_l2_8_lsx(dst, halfH, halfHV, stride, 16); } void ff_avg_h264_qpel16_mc22_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { avg_h264_qpel16_hv_lowpass_lasx(dst, src, stride, stride); } void ff_avg_h264_qpel16_mc32_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t temp[512]; uint8_t *const halfHV = temp; uint8_t *const halfH = temp + 256; put_h264_qpel16_hv_lowpass_lasx(halfHV, src, 16, stride); put_h264_qpel16_v_lowpass_lasx(halfH, src + 1, 16, stride); avg_pixels16_l2_8_lsx(dst, halfH, halfHV, stride, 16); } void ff_avg_h264_qpel16_mc03_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t half[256]; put_h264_qpel16_v_lowpass_lasx(half, src, 16, stride); avg_pixels16_l2_8_lsx(dst, src + stride, half, stride, stride); } void ff_avg_h264_qpel16_mc13_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { avc_luma_hv_qrt_and_aver_dst_16x16_lasx((uint8_t*)src + stride - 2, (uint8_t*)src - (stride * 2), dst, stride); } void ff_avg_h264_qpel16_mc23_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { uint8_t temp[512]; uint8_t *const halfH = temp; uint8_t *const halfHV = temp + 256; put_h264_qpel16_h_lowpass_lasx(halfH, src + stride, 16, stride); put_h264_qpel16_hv_lowpass_lasx(halfHV, src, 16, stride); avg_pixels16_l2_8_lsx(dst, halfH, halfHV, stride, 16); } void ff_avg_h264_qpel16_mc33_lasx(uint8_t *dst, const uint8_t *src, ptrdiff_t stride) { avc_luma_hv_qrt_and_aver_dst_16x16_lasx((uint8_t*)src + stride - 2, (uint8_t*)src - (stride * 2) + 1, dst, stride); }