ref: 719a61a653646e781b2024da890c7c6b378a6f1e
dir: /codec/common/mips/deblock_msa.c/
/*! * \copy * Copyright (C) 2019 Loongson Technology Co. Ltd. * Contributed by Gu Xiwei(guxiwei-hf@loongson.cn) * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * * * \file deblock_msa.c * * \brief MIPS MSA optimizations * * \date 15/05/2020 Created * ************************************************************************************* */ #include <stdint.h> #include "msa_macros.h" void DeblockLumaLt4V_msa(uint8_t *pPix, int32_t iStride, int32_t iAlpha, int32_t iBeta, int8_t *pTc) { v16u8 p0, p1, p2, q0, q1, q2; v16i8 iTc, negiTc, negTc, flags, f; v8i16 p0_l, p0_r, p1_l, p1_r, p2_l, p2_r, q0_l, q0_r, q1_l, q1_r, q2_l, q2_r; v8i16 tc_l, tc_r, negTc_l, negTc_r; v8i16 iTc_l, iTc_r, negiTc_l, negiTc_r; // Use for temporary variable v8i16 t0, t1, t2, t3; v16u8 alpha, beta; v16u8 bDetaP0Q0, bDetaP1P0, bDetaQ1Q0, bDetaP2P0, bDetaQ2Q0; v16i8 const_1_b = __msa_ldi_b(1); v8i16 const_1_h = __msa_ldi_h(1); v8i16 const_4_h = __msa_ldi_h(4); v8i16 const_not_255_h = __msa_ldi_h(~255); v16i8 zero = { 0 }; v16i8 tc = { pTc[0 >> 2], pTc[1 >> 2], pTc[2 >> 2], pTc[3 >> 2], pTc[4 >> 2], pTc[5 >> 2], pTc[6 >> 2], pTc[7 >> 2], pTc[8 >> 2], pTc[9 >> 2], pTc[10 >> 2], pTc[11 >> 2], pTc[12 >> 2], pTc[13 >> 2], pTc[14 >> 2], pTc[15 >> 2] }; negTc = zero - tc; iTc = tc; // Load data from pPix MSA_LD_V4(v16u8, pPix - 3 * iStride, iStride, p2, p1, p0, q0); MSA_LD_V2(v16u8, pPix + iStride, iStride, q1, q2); alpha = (v16u8)__msa_fill_b(iAlpha); beta = (v16u8)__msa_fill_b(iBeta); bDetaP0Q0 = __msa_asub_u_b(p0, q0); bDetaP1P0 = __msa_asub_u_b(p1, p0); bDetaQ1Q0 = __msa_asub_u_b(q1, q0); bDetaP2P0 = __msa_asub_u_b(p2, p0); bDetaQ2Q0 = __msa_asub_u_b(q2, q0); bDetaP0Q0 = (v16u8)__msa_clt_u_b(bDetaP0Q0, alpha); bDetaP1P0 = (v16u8)__msa_clt_u_b(bDetaP1P0, beta); bDetaQ1Q0 = (v16u8)__msa_clt_u_b(bDetaQ1Q0, beta); bDetaP2P0 = (v16u8)__msa_clt_u_b(bDetaP2P0, beta); bDetaQ2Q0 = (v16u8)__msa_clt_u_b(bDetaQ2Q0, beta); // Unsigned extend p0, p1, p2, q0, q1, q2 from 8 bits to 16 bits MSA_ILVRL_B4(v8i16, zero, p0, zero, p1, p0_r, p0_l, p1_r, p1_l); MSA_ILVRL_B4(v8i16, zero, p2, zero, q0, p2_r, p2_l, q0_r, q0_l); MSA_ILVRL_B4(v8i16, zero, q1, zero, q2, q1_r, q1_l, q2_r, q2_l); // Signed extend tc, negTc from 8 bits to 16 bits flags = __msa_clt_s_b(tc, zero); MSA_ILVRL_B2(v8i16, flags, tc, tc_r, tc_l); flags = __msa_clt_s_b(negTc, zero); MSA_ILVRL_B2(v8i16, flags, negTc, negTc_r, negTc_l); f = (v16i8)bDetaP0Q0 & (v16i8)bDetaP1P0 & (v16i8)bDetaQ1Q0; flags = f & (v16i8)bDetaP2P0; flags = __msa_ceq_b(flags, zero); iTc += ((~flags) & const_1_b); flags = f & (v16i8)bDetaQ2Q0; flags = __msa_ceq_b(flags, zero); iTc += ((~flags) & const_1_b); negiTc = zero - iTc; // Signed extend iTc, negiTc from 8 bits to 16 bits flags = __msa_clt_s_b(iTc, zero); MSA_ILVRL_B2(v8i16, flags, iTc, iTc_r, iTc_l); flags = __msa_clt_s_b(negiTc, zero); MSA_ILVRL_B2(v8i16, flags, negiTc, negiTc_r, negiTc_l); // Calculate the left part // p1 t0 = (p2_l + ((p0_l + q0_l + const_1_h) >> 1) - (p1_l << 1)) >> 1; t0 = __msa_max_s_h(negTc_l, t0); t0 = __msa_min_s_h(tc_l, t0); t1 = p1_l + t0; // q1 t0 = (q2_l + ((p0_l + q0_l + const_1_h) >> 1) - (q1_l << 1)) >> 1; t0 = __msa_max_s_h(negTc_l, t0); t0 = __msa_min_s_h(tc_l, t0); t2 = q1_l + t0; // iDeta t0 = (((q0_l - p0_l) << 2) + (p1_l - q1_l) + const_4_h) >> 3; t0 = __msa_max_s_h(negiTc_l, t0); t0 = __msa_min_s_h(iTc_l, t0); p1_l = t1; q1_l = t2; // p0 t1 = p0_l + t0; t2 = t1 & const_not_255_h; t3 = __msa_cle_s_h((v8i16)zero, t1); flags = (v16i8)__msa_ceq_h(t2, (v8i16)zero); p0_l = (t1 & (v8i16)flags) + (t3 & (v8i16)(~flags)); // q0 t1 = q0_l - t0; t2 = t1 & const_not_255_h; t3 = __msa_cle_s_h((v8i16)zero, t1); flags = (v16i8)__msa_ceq_h(t2, (v8i16)zero); q0_l = (t1 & (v8i16)flags) + (t3 & (v8i16)(~flags)); // Calculate the right part // p1 t0 = (p2_r + ((p0_r + q0_r + const_1_h) >> 1) - (p1_r << 1)) >> 1; t0 = __msa_max_s_h(negTc_r, t0); t0 = __msa_min_s_h(tc_r, t0); t1 = p1_r + t0; // q1 t0 = (q2_r + ((p0_r + q0_r + const_1_h) >> 1) - (q1_r << 1)) >> 1; t0 = __msa_max_s_h(negTc_r, t0); t0 = __msa_min_s_h(tc_r, t0); t2 = q1_r + t0; // iDeta t0 = (((q0_r - p0_r) << 2) + (p1_r - q1_r) + const_4_h) >> 3; t0 = __msa_max_s_h(negiTc_r, t0); t0 = __msa_min_s_h(iTc_r, t0); p1_r = t1; q1_r = t2; // p0 t1 = p0_r + t0; t2 = t1 & const_not_255_h; t3 = __msa_cle_s_h((v8i16)zero, t1); flags = (v16i8)__msa_ceq_h(t2, (v8i16)zero); p0_r = (t1 & (v8i16)flags) + (t3 & (v8i16)(~flags)); // q0 t1 = q0_r - t0; t2 = t1 & const_not_255_h; t3 = __msa_cle_s_h((v8i16)zero, t1); flags = (v16i8)__msa_ceq_h(t2, (v8i16)zero); q0_r = (t1 & (v8i16)flags) + (t3 & (v8i16)(~flags)); // Combined left and right MSA_PCKEV_B4(v8i16, p1_l, p1_r, p0_l, p0_r, q0_l, q0_r, q1_l, q1_r, t0, t1, t2, t3); flags = (v16i8)__msa_cle_s_b(zero, tc); flags &= f; p0 = (v16u8)(((v16i8)t1 & flags) + (p0 & (~flags))); q0 = (v16u8)(((v16i8)t2 & flags) + (q0 & (~flags))); // Using t1, t2 as temporary flags t1 = (v8i16)(flags & (~(__msa_ceq_b((v16i8)bDetaP2P0, zero)))); p1 = (v16u8)(t0 & t1) + (p1 & (v16u8)(~t1)); t2 = (v8i16)(flags & (~(__msa_ceq_b((v16i8)bDetaQ2Q0, zero)))); q1 = (v16u8)(t3 & t2) + (q1 & (v16u8)(~t2)); // Store data to pPix MSA_ST_V4(v16u8, p1, p0, q0, q1, pPix - 2 * iStride, iStride); } void DeblockLumaEq4V_msa(uint8_t *pPix, int32_t iStride, int32_t iAlpha, int32_t iBeta) { v16u8 p0, p1, p2, p3, q0, q1, q2, q3; v8i16 p0_l, p0_r, p1_l, p1_r, p2_l, p2_r, p3_l, p3_r, q0_l, q0_r, q1_l, q1_r, q2_l, q2_r, q3_l, q3_r; v8i16 t0, t1, t2, t0_con1; v8i16 s0, s1, s2, s0_con1; v16u8 alpha, beta; v16u8 iDetaP0Q0, bDetaP1P0, bDetaQ1Q0, bDetaP2P0, bDetaQ2Q0; // Condition mask v16u8 mask0, mask1; v16i8 const_2_b = __msa_ldi_b(2); v8i16 const_2_h = __msa_ldi_h(2); v8i16 const_4_h = __msa_ldi_h(4); v16i8 zero = { 0 }; // Load data from pPix MSA_LD_V8(v16u8, pPix - 4 * iStride, iStride, p3, p2, p1, p0, q0, q1, q2, q3); // iAlpha and beta are uint8_t type alpha = (v16u8)__msa_fill_b(iAlpha); beta = (v16u8)__msa_fill_b(iBeta); // iDetaP0Q0 is not bool type iDetaP0Q0 = __msa_asub_u_b(p0, q0); bDetaP1P0 = __msa_asub_u_b(p1, p0); bDetaQ1Q0 = __msa_asub_u_b(q1, q0); bDetaP2P0 = __msa_asub_u_b(p2, p0); bDetaQ2Q0 = __msa_asub_u_b(q2, q0); bDetaP1P0 = (v16u8)__msa_clt_u_b(bDetaP1P0, beta); bDetaQ1Q0 = (v16u8)__msa_clt_u_b(bDetaQ1Q0, beta); bDetaP2P0 = (v16u8)__msa_clt_u_b(bDetaP2P0, beta); bDetaQ2Q0 = (v16u8)__msa_clt_u_b(bDetaQ2Q0, beta); // Unsigned extend p0, p1, p2, p3, q0, q1, q2, q3 from 8 bits to 16 bits MSA_ILVRL_B4(v8i16, zero, p0, zero, p1, p0_r, p0_l, p1_r, p1_l); MSA_ILVRL_B4(v8i16, zero, p2, zero, p3, p2_r, p2_l, p3_r, p3_l); MSA_ILVRL_B4(v8i16, zero, q0, zero, q1, q0_r, q0_l, q1_r, q1_l); MSA_ILVRL_B4(v8i16, zero, q2, zero, q3, q2_r, q2_l, q3_r, q3_l); // Calculate condition mask // (iDetaP0Q0 < iAlpha) && bDetaP1P0 && bDetaQ1Q0 mask0 = (v16u8)__msa_clt_u_b(iDetaP0Q0, alpha); mask0 &= bDetaP1P0; mask0 &= bDetaQ1Q0; // iDetaP0Q0 < ((iAlpha >> 2) + 2) mask1 = (v16u8)((alpha >> 2) + const_2_b); mask1 = (v16u8)__msa_clt_u_b(iDetaP0Q0, mask1); // Calculate the left part // p0 t0 = (p2_l + (p1_l << 1) + (p0_l << 1) + (q0_l << 1) + q1_l + const_4_h) >> 3; // p1 t1 = (p2_l + p1_l + p0_l + q0_l + const_2_h) >> 2; // p2 t2 = ((p3_l << 1) + p2_l + (p2_l << 1) + p1_l + p0_l + q0_l + const_4_h) >> 3; // p0 condition 1 t0_con1 = ((p1_l << 1) + p0_l + q1_l + const_2_h) >> 2; // q0 s0 = (p1_l + (p0_l << 1) + (q0_l << 1) + (q1_l << 1) + q2_l + const_4_h) >> 3; // q1 s1 = (p0_l + q0_l + q1_l + q2_l + const_2_h) >> 2; // q2 s2 = ((q3_l << 1) + q2_l + (q2_l << 1) + q1_l + q0_l + p0_l + const_4_h) >> 3; // q0 condition 1 s0_con1 = ((q1_l << 1) + q0_l + p1_l + const_2_h) >> 2; // Move back p0_l = t0; p1_l = t1; p2_l = t2; q0_l = s0; q1_l = s1; q2_l = s2; // Use p3_l, q3_l as tmp p3_l = t0_con1; q3_l = s0_con1; // Calculate the right part // p0 t0 = (p2_r + (p1_r << 1) + (p0_r << 1) + (q0_r << 1) + q1_r + const_4_h) >> 3; // p1 t1 = (p2_r + p1_r + p0_r + q0_r + const_2_h) >> 2; // p2 t2 = ((p3_r << 1) + p2_r + (p2_r << 1) + p1_r + p0_r + q0_r + const_4_h) >> 3; // p0 condition 1 t0_con1 = ((p1_r << 1) + p0_r + q1_r + const_2_h) >> 2; // q0 s0 = (p1_r + (p0_r << 1) + (q0_r << 1) + (q1_r << 1) + q2_r + const_4_h) >> 3; // q1 s1 = (p0_r + q0_r + q1_r + q2_r + const_2_h) >> 2; // q2 s2 = ((q3_r << 1) + q2_r + (q2_r << 1) + q1_r + q0_r + p0_r + const_4_h) >> 3; // q0 condition 1 s0_con1 = ((q1_r << 1) + q0_r + p1_r + const_2_h) >> 2; // Move back p0_r = t0; p1_r = t1; p2_r = t2; q0_r = s0; q1_r = s1; q2_r = s2; // Use p3_r, q3_r as tmp p3_r = t0_con1; q3_r = s0_con1; // Combined left and right MSA_PCKEV_B4(v8i16, p0_l, p0_r, p1_l, p1_r, p2_l, p2_r, q0_l, q0_r, t0, t1, t2, s0); MSA_PCKEV_B4(v8i16, q1_l, q1_r, q2_l, q2_r, p3_l, p3_r, q3_l, q3_r, s1, s2, t0_con1, s0_con1); t0 = (v8i16)(((v16u8)t0 & mask0 & mask1 & bDetaP2P0) + ((v16u8)t0_con1 & mask0 & mask1 & (~bDetaP2P0)) + ((v16u8)t0_con1 & mask0 & (~mask1))); t1 = (v8i16)((v16u8)t1 & mask0 & mask1 & bDetaP2P0); t2 = (v8i16)((v16u8)t2 & mask0 & mask1 & bDetaP2P0); s0 = (v8i16)(((v16u8)s0 & mask0 & mask1 & bDetaQ2Q0) + ((v16u8)s0_con1 & mask0 & mask1 & (~bDetaQ2Q0)) + ((v16u8)s0_con1 & mask0 & (~mask1))); s1 = (v8i16)((v16u8)s1 & mask0 & mask1 & bDetaQ2Q0); s2 = (v8i16)((v16u8)s2 & mask0 & mask1 & bDetaQ2Q0); p0 = (v16u8)t0 + (p0 & (~mask0)); p1 = (v16u8)t1 + (p1 & ~(mask0 & mask1 & bDetaP2P0)); p2 = (v16u8)t2 + (p2 & ~(mask0 & mask1 & bDetaP2P0)); q0 = (v16u8)s0 + (q0 & (~mask0)); q1 = (v16u8)s1 + (q1 & ~(mask0 & mask1 & bDetaQ2Q0)); q2 = (v16u8)s2 + (q2 & ~(mask0 & mask1 & bDetaQ2Q0)); // Store data to pPix MSA_ST_V4(v16u8, p2, p1, p0, q0, pPix - 3 * iStride, iStride); MSA_ST_V2(v16u8, q1, q2, pPix + iStride, iStride); } void DeblockLumaLt4H_msa(uint8_t* pPix, int32_t iStride, int32_t iAlpha, int32_t iBeta, int8_t* pTc) { v16u8 p0, p1, p2, q0, q1, q2; v16i8 iTc, negiTc, negTc, flags, f; v8i16 p0_l, p0_r, p1_l, p1_r, p2_l, p2_r, q0_l, q0_r, q1_l, q1_r, q2_l, q2_r; v8i16 tc_l, tc_r, negTc_l, negTc_r; v8i16 iTc_l, iTc_r, negiTc_l, negiTc_r; // Use for temporary variable v8i16 t0, t1, t2, t3; v16u8 alpha, beta; v16u8 bDetaP0Q0, bDetaP1P0, bDetaQ1Q0, bDetaP2P0, bDetaQ2Q0; v16i8 const_1_b = __msa_ldi_b(1); v8i16 const_1_h = __msa_ldi_h(1); v8i16 const_4_h = __msa_ldi_h(4); v8i16 const_not_255_h = __msa_ldi_h(~255); v16i8 zero = { 0 }; v16i8 tc = { pTc[0 >> 2], pTc[1 >> 2], pTc[2 >> 2], pTc[3 >> 2], pTc[4 >> 2], pTc[5 >> 2], pTc[6 >> 2], pTc[7 >> 2], pTc[8 >> 2], pTc[9 >> 2], pTc[10 >> 2], pTc[11 >> 2], pTc[12 >> 2], pTc[13 >> 2], pTc[14 >> 2], pTc[15 >> 2] }; negTc = zero - tc; iTc = tc; // Load data from pPix MSA_LD_V8(v8i16, pPix - 3, iStride, t0, t1, t2, t3, q1_l, q1_r, q2_l, q2_r); MSA_LD_V8(v8i16, pPix + 8 * iStride - 3, iStride, p0_l, p0_r, p1_l, p1_r, p2_l, p2_r, q0_l, q0_r); // Transpose 16x8 to 8x16, we just need p0, p1, p2, q0, q1, q2 MSA_TRANSPOSE16x8_B(v16u8, t0, t1, t2, t3, q1_l, q1_r, q2_l, q2_r, p0_l, p0_r, p1_l, p1_r, p2_l, p2_r, q0_l, q0_r, p2, p1, p0, q0, q1, q2, alpha, beta); alpha = (v16u8)__msa_fill_b(iAlpha); beta = (v16u8)__msa_fill_b(iBeta); bDetaP0Q0 = __msa_asub_u_b(p0, q0); bDetaP1P0 = __msa_asub_u_b(p1, p0); bDetaQ1Q0 = __msa_asub_u_b(q1, q0); bDetaP2P0 = __msa_asub_u_b(p2, p0); bDetaQ2Q0 = __msa_asub_u_b(q2, q0); bDetaP0Q0 = (v16u8)__msa_clt_u_b(bDetaP0Q0, alpha); bDetaP1P0 = (v16u8)__msa_clt_u_b(bDetaP1P0, beta); bDetaQ1Q0 = (v16u8)__msa_clt_u_b(bDetaQ1Q0, beta); bDetaP2P0 = (v16u8)__msa_clt_u_b(bDetaP2P0, beta); bDetaQ2Q0 = (v16u8)__msa_clt_u_b(bDetaQ2Q0, beta); // Unsigned extend p0, p1, p2, q0, q1, q2 from 8 bits to 16 bits MSA_ILVRL_B4(v8i16, zero, p0, zero, p1, p0_r, p0_l, p1_r, p1_l); MSA_ILVRL_B4(v8i16, zero, p2, zero, q0, p2_r, p2_l, q0_r, q0_l); MSA_ILVRL_B4(v8i16, zero, q1, zero, q2, q1_r, q1_l, q2_r, q2_l); // Signed extend tc, negTc from 8 bits to 16 bits flags = __msa_clt_s_b(tc, zero); MSA_ILVRL_B2(v8i16, flags, tc, tc_r, tc_l); flags = __msa_clt_s_b(negTc, zero); MSA_ILVRL_B2(v8i16, flags, negTc, negTc_r, negTc_l); f = (v16i8)bDetaP0Q0 & (v16i8)bDetaP1P0 & (v16i8)bDetaQ1Q0; flags = f & (v16i8)bDetaP2P0; flags = __msa_ceq_b(flags, zero); iTc += ((~flags) & const_1_b); flags = f & (v16i8)bDetaQ2Q0; flags = __msa_ceq_b(flags, zero); iTc += ((~flags) & const_1_b); negiTc = zero - iTc; // Signed extend iTc, negiTc from 8 bits to 16 bits flags = __msa_clt_s_b(iTc, zero); MSA_ILVRL_B2(v8i16, flags, iTc, iTc_r, iTc_l); flags = __msa_clt_s_b(negiTc, zero); MSA_ILVRL_B2(v8i16, flags, negiTc, negiTc_r, negiTc_l); // Calculate the left part // p1 t0 = (p2_l + ((p0_l + q0_l + const_1_h) >> 1) - (p1_l << 1)) >> 1; t0 = __msa_max_s_h(negTc_l, t0); t0 = __msa_min_s_h(tc_l, t0); t1 = p1_l + t0; // q1 t0 = (q2_l + ((p0_l + q0_l + const_1_h) >> 1) - (q1_l << 1)) >> 1; t0 = __msa_max_s_h(negTc_l, t0); t0 = __msa_min_s_h(tc_l, t0); t2 = q1_l + t0; // iDeta t0 = (((q0_l - p0_l) << 2) + (p1_l - q1_l) + const_4_h) >> 3; t0 = __msa_max_s_h(negiTc_l, t0); t0 = __msa_min_s_h(iTc_l, t0); p1_l = t1; q1_l = t2; // p0 t1 = p0_l + t0; t2 = t1 & const_not_255_h; t3 = __msa_cle_s_h((v8i16)zero, t1); flags = (v16i8)__msa_ceq_h(t2, (v8i16)zero); p0_l = (t1 & (v8i16)flags) + (t3 & (v8i16)(~flags)); // q0 t1 = q0_l - t0; t2 = t1 & const_not_255_h; t3 = __msa_cle_s_h((v8i16)zero, t1); flags = (v16i8)__msa_ceq_h(t2, (v8i16)zero); q0_l = (t1 & (v8i16)flags) + (t3 & (v8i16)(~flags)); // Calculate the right part // p1 t0 = (p2_r + ((p0_r + q0_r + const_1_h) >> 1) - (p1_r << 1)) >> 1; t0 = __msa_max_s_h(negTc_r, t0); t0 = __msa_min_s_h(tc_r, t0); t1 = p1_r + t0; // q1 t0 = (q2_r + ((p0_r + q0_r + const_1_h) >> 1) - (q1_r << 1)) >> 1; t0 = __msa_max_s_h(negTc_r, t0); t0 = __msa_min_s_h(tc_r, t0); t2 = q1_r + t0; // iDeta t0 = (((q0_r - p0_r) << 2) + (p1_r - q1_r) + const_4_h) >> 3; t0 = __msa_max_s_h(negiTc_r, t0); t0 = __msa_min_s_h(iTc_r, t0); p1_r = t1; q1_r = t2; // p0 t1 = p0_r + t0; t2 = t1 & const_not_255_h; t3 = __msa_cle_s_h((v8i16)zero, t1); flags = (v16i8)__msa_ceq_h(t2, (v8i16)zero); p0_r = (t1 & (v8i16)flags) + (t3 & (v8i16)(~flags)); // q0 t1 = q0_r - t0; t2 = t1 & const_not_255_h; t3 = __msa_cle_s_h((v8i16)zero, t1); flags = (v16i8)__msa_ceq_h(t2, (v8i16)zero); q0_r = (t1 & (v8i16)flags) + (t3 & (v8i16)(~flags)); // Combined left and right MSA_PCKEV_B4(v8i16, p1_l, p1_r, p0_l, p0_r, q0_l, q0_r, q1_l, q1_r, t0, t1, t2, t3); flags = (v16i8)__msa_cle_s_b(zero, tc); flags &= f; p0 = (v16u8)(((v16i8)t1 & flags) + (p0 & (~flags))); q0 = (v16u8)(((v16i8)t2 & flags) + (q0 & (~flags))); // Using t1, t2 as temporary flags t1 = (v8i16)(flags & (~(__msa_ceq_b((v16i8)bDetaP2P0, zero)))); p1 = (v16u8)(t0 & t1) + (p1 & (v16u8)(~t1)); t2 = (v8i16)(flags & (~(__msa_ceq_b((v16i8)bDetaQ2Q0, zero)))); q1 = (v16u8)(t3 & t2) + (q1 & (v16u8)(~t2)); MSA_ILVRL_B4(v8i16, p0, p1, q1, q0, t0, t1, t2, t3); MSA_ILVRL_H4(v16u8, t2, t0, t3, t1, p1, p0, q0, q1); // Store data to pPix MSA_ST_W8(p1, p0, 0, 1, 2, 3, 0, 1, 2, 3, pPix - 2, iStride); MSA_ST_W8(q0, q1, 0, 1, 2, 3, 0, 1, 2, 3, pPix + 8 * iStride - 2, iStride); } void DeblockLumaEq4H_msa(uint8_t *pPix, int32_t iStride, int32_t iAlpha, int32_t iBeta) { v16u8 p0, p1, p2, p3, q0, q1, q2, q3; v8i16 p0_l, p0_r, p1_l, p1_r, p2_l, p2_r, p3_l, p3_r, q0_l, q0_r, q1_l, q1_r, q2_l, q2_r, q3_l, q3_r; v8i16 t0, t1, t2, t0_con1; v8i16 s0, s1, s2, s0_con1; v16u8 alpha, beta; v16u8 iDetaP0Q0, bDetaP1P0, bDetaQ1Q0, bDetaP2P0, bDetaQ2Q0; // Condition mask v16u8 mask0, mask1; v16i8 const_2_b = __msa_ldi_b(2); v8i16 const_2_h = __msa_ldi_h(2); v8i16 const_4_h = __msa_ldi_h(4); v16i8 zero = { 0 }; // Load data from pPix MSA_LD_V8(v8i16, pPix - 4, iStride, p0_l, p0_r, p1_l, p1_r, p2_l, p2_r, p3_l, p3_r); MSA_LD_V8(v8i16, pPix + 8 * iStride - 4, iStride, q0_l, q0_r, q1_l, q1_r, q2_l, q2_r, q3_l, q3_r); // Transpose 16x8 to 8x16, we just need p0, p1, p2, p3, q0, q1, q2, q3 MSA_TRANSPOSE16x8_B(v16u8, p0_l, p0_r, p1_l, p1_r, p2_l, p2_r, p3_l, p3_r, q0_l, q0_r, q1_l, q1_r, q2_l, q2_r, q3_l, q3_r, p3, p2, p1, p0, q0, q1, q2, q3); // iAlpha and beta are uint8_t type alpha = (v16u8)__msa_fill_b(iAlpha); beta = (v16u8)__msa_fill_b(iBeta); // iDetaP0Q0 is not bool type iDetaP0Q0 = __msa_asub_u_b(p0, q0); bDetaP1P0 = __msa_asub_u_b(p1, p0); bDetaQ1Q0 = __msa_asub_u_b(q1, q0); bDetaP2P0 = __msa_asub_u_b(p2, p0); bDetaQ2Q0 = __msa_asub_u_b(q2, q0); bDetaP1P0 = (v16u8)__msa_clt_u_b(bDetaP1P0, beta); bDetaQ1Q0 = (v16u8)__msa_clt_u_b(bDetaQ1Q0, beta); bDetaP2P0 = (v16u8)__msa_clt_u_b(bDetaP2P0, beta); bDetaQ2Q0 = (v16u8)__msa_clt_u_b(bDetaQ2Q0, beta); // Unsigned extend p0, p1, p2, p3, q0, q1, q2, q3 from 8 bits to 16 bits MSA_ILVRL_B4(v8i16, zero, p0, zero, p1, p0_r, p0_l, p1_r, p1_l); MSA_ILVRL_B4(v8i16, zero, p2, zero, p3, p2_r, p2_l, p3_r, p3_l); MSA_ILVRL_B4(v8i16, zero, q0, zero, q1, q0_r, q0_l, q1_r, q1_l); MSA_ILVRL_B4(v8i16, zero, q2, zero, q3, q2_r, q2_l, q3_r, q3_l); // Calculate condition mask // (iDetaP0Q0 < iAlpha) && bDetaP1P0 && bDetaQ1Q0 mask0 = (v16u8)__msa_clt_u_b(iDetaP0Q0, alpha); mask0 &= bDetaP1P0; mask0 &= bDetaQ1Q0; // iDetaP0Q0 < ((iAlpha >> 2) + 2) mask1 = (v16u8)((alpha >> 2) + const_2_b); mask1 = (v16u8)__msa_clt_u_b(iDetaP0Q0, mask1); // Calculate the left part // p0 t0 = (p2_l + (p1_l << 1) + (p0_l << 1) + (q0_l << 1) + q1_l + const_4_h) >> 3; // p1 t1 = (p2_l + p1_l + p0_l + q0_l + const_2_h) >> 2; // p2 t2 = ((p3_l << 1) + p2_l + (p2_l << 1) + p1_l + p0_l + q0_l + const_4_h) >> 3; // p0 condition 1 t0_con1 = ((p1_l << 1) + p0_l + q1_l + const_2_h) >> 2; // q0 s0 = (p1_l + (p0_l << 1) + (q0_l << 1) + (q1_l << 1) + q2_l + const_4_h) >> 3; // q1 s1 = (p0_l + q0_l + q1_l + q2_l + const_2_h) >> 2; // q2 s2 = ((q3_l << 1) + q2_l + (q2_l << 1) + q1_l + q0_l + p0_l + const_4_h) >> 3; // q0 condition 1 s0_con1 = ((q1_l << 1) + q0_l + p1_l + const_2_h) >> 2; // Move back p0_l = t0; p1_l = t1; p2_l = t2; q0_l = s0; q1_l = s1; q2_l = s2; // Use p3_l, q3_l as tmp p3_l = t0_con1; q3_l = s0_con1; // Calculate the right part // p0 t0 = (p2_r + (p1_r << 1) + (p0_r << 1) + (q0_r << 1) + q1_r + const_4_h) >> 3; // p1 t1 = (p2_r + p1_r + p0_r + q0_r + const_2_h) >> 2; // p2 t2 = ((p3_r << 1) + p2_r + (p2_r << 1) + p1_r + p0_r + q0_r + const_4_h) >> 3; // p0 condition 1 t0_con1 = ((p1_r << 1) + p0_r + q1_r + const_2_h) >> 2; // q0 s0 = (p1_r + (p0_r << 1) + (q0_r << 1) + (q1_r << 1) + q2_r + const_4_h) >> 3; // q1 s1 = (p0_r + q0_r + q1_r + q2_r + const_2_h) >> 2; // q2 s2 = ((q3_r << 1) + q2_r + (q2_r << 1) + q1_r + q0_r + p0_r + const_4_h) >> 3; // q0 condition 1 s0_con1 = ((q1_r << 1) + q0_r + p1_r + const_2_h) >> 2; // Move back p0_r = t0; p1_r = t1; p2_r = t2; q0_r = s0; q1_r = s1; q2_r = s2; // Use p3_r, q3_r as tmp p3_r = t0_con1; q3_r = s0_con1; // Combined left and right MSA_PCKEV_B4(v8i16, p0_l, p0_r, p1_l, p1_r, p2_l, p2_r, q0_l, q0_r, t0, t1, t2, s0); MSA_PCKEV_B4(v8i16, q1_l, q1_r, q2_l, q2_r, p3_l, p3_r, q3_l, q3_r, s1, s2, t0_con1, s0_con1); t0 = (v8i16)(((v16u8)t0 & mask0 & mask1 & bDetaP2P0) + ((v16u8)t0_con1 & mask0 & mask1 & (~bDetaP2P0)) + ((v16u8)t0_con1 & mask0 & (~mask1))); t1 = (v8i16)((v16u8)t1 & mask0 & mask1 & bDetaP2P0); t2 = (v8i16)((v16u8)t2 & mask0 & mask1 & bDetaP2P0); s0 = (v8i16)(((v16u8)s0 & mask0 & mask1 & bDetaQ2Q0) + ((v16u8)s0_con1 & mask0 & mask1 & (~bDetaQ2Q0)) + ((v16u8)s0_con1 & mask0 & (~mask1))); s1 = (v8i16)((v16u8)s1 & mask0 & mask1 & bDetaQ2Q0); s2 = (v8i16)((v16u8)s2 & mask0 & mask1 & bDetaQ2Q0); p0 = (v16u8)t0 + (p0 & (~mask0)); p1 = (v16u8)t1 + (p1 & ~(mask0 & mask1 & bDetaP2P0)); p2 = (v16u8)t2 + (p2 & ~(mask0 & mask1 & bDetaP2P0)); q0 = (v16u8)s0 + (q0 & (~mask0)); q1 = (v16u8)s1 + (q1 & ~(mask0 & mask1 & bDetaQ2Q0)); q2 = (v16u8)s2 + (q2 & ~(mask0 & mask1 & bDetaQ2Q0)); MSA_ILVRL_B4(v8i16, p1, p2, q0, p0, t0, s0, t1, s1); MSA_ILVRL_B2(v8i16, q2, q1, t2, s2); MSA_ILVRL_H4(v16u8, t1, t0, s1, s0, p2, p1, p0, q0); // Store data to pPix MSA_ST_W8(p2, p1, 0, 1, 2, 3, 0, 1, 2, 3, pPix - 3, iStride); MSA_ST_W8(p0, q0, 0, 1, 2, 3, 0, 1, 2, 3, pPix + 8 * iStride - 3, iStride); MSA_ST_H8(t2, 0, 1, 2, 3, 4, 5, 6, 7, pPix + 1, iStride); MSA_ST_H8(s2, 0, 1, 2, 3, 4, 5, 6, 7, pPix + 8 * iStride + 1, iStride); } void DeblockChromaLt4V_msa(uint8_t* pPixCb, uint8_t* pPixCr, int32_t iStride, int32_t iAlpha, int32_t iBeta, int8_t* pTc) { v16u8 p0, p1, q0, q1; v8i16 p0_e, p1_e, q0_e, q1_e; v16i8 negTc, flags, f; v8i16 tc_e, negTc_e; // Use for temporary variable v8i16 t0, t1, t2, t3; v16u8 alpha, beta; v16u8 bDetaP0Q0, bDetaP1P0, bDetaQ1Q0; v8i16 const_4_h = __msa_ldi_h(4); v8i16 const_not_255_h = __msa_ldi_h(~255); v16i8 zero = { 0 }; v16i8 tc = { pTc[0 >> 1], pTc[1 >> 1], pTc[2 >> 1], pTc[3 >> 1], pTc[4 >> 1], pTc[5 >> 1], pTc[6 >> 1], pTc[7 >> 1] }; negTc = zero - tc; alpha = (v16u8)__msa_fill_b(iAlpha); beta = (v16u8)__msa_fill_b(iBeta); // Signed extend tc, negTc from 8 bits to 16 bits flags = __msa_clt_s_b(tc, zero); MSA_ILVR_B(v8i16, flags, tc, tc_e); flags = __msa_clt_s_b(negTc, zero); MSA_ILVR_B(v8i16, flags, negTc, negTc_e); // Cb // Load data from pPixCb MSA_LD_V4(v16u8, pPixCb - 2 * iStride, iStride, p1, p0, q0, q1); bDetaP0Q0 = __msa_asub_u_b(p0, q0); bDetaP1P0 = __msa_asub_u_b(p1, p0); bDetaQ1Q0 = __msa_asub_u_b(q1, q0); bDetaP0Q0 = (v16u8)__msa_clt_u_b(bDetaP0Q0, alpha); bDetaP1P0 = (v16u8)__msa_clt_u_b(bDetaP1P0, beta); bDetaQ1Q0 = (v16u8)__msa_clt_u_b(bDetaQ1Q0, beta); // Unsigned extend p0, p1, q0, q1 from 8 bits to 16 bits MSA_ILVR_B4(v8i16, zero, p0, zero, p1, zero, q0, zero, q1, p0_e, p1_e, q0_e, q1_e); f = (v16i8)bDetaP0Q0 & (v16i8)bDetaP1P0 & (v16i8)bDetaQ1Q0; // iDeta t0 = (((q0_e - p0_e) << 2) + (p1_e - q1_e) + const_4_h) >> 3; t0 = __msa_max_s_h(negTc_e, t0); t0 = __msa_min_s_h(tc_e, t0); // p0 t1 = p0_e + t0; t2 = t1 & const_not_255_h; t3 = __msa_cle_s_h((v8i16)zero, t1); flags = (v16i8)__msa_ceq_h(t2, (v8i16)zero); p0_e = (t1 & (v8i16)flags) + (t3 & (v8i16)(~flags)); // q0 t1 = q0_e - t0; t2 = t1 & const_not_255_h; t3 = __msa_cle_s_h((v8i16)zero, t1); flags = (v16i8)__msa_ceq_h(t2, (v8i16)zero); q0_e = (t1 & (v8i16)flags) + (t3 & (v8i16)(~flags)); MSA_PCKEV_B2(v8i16, p0_e, p0_e, q0_e, q0_e, t0, t1); flags = (v16i8)__msa_cle_s_b(zero, tc); flags &= f; p0 = (v16u8)(((v16i8)t0 & flags) + (p0 & (~flags))); q0 = (v16u8)(((v16i8)t1 & flags) + (q0 & (~flags))); // Store data to pPixCb MSA_ST_D(p0, 0, pPixCb - iStride); MSA_ST_D(q0, 0, pPixCb); // Cr // Load data from pPixCr MSA_LD_V4(v16u8, pPixCr - 2 * iStride, iStride, p1, p0, q0, q1); bDetaP0Q0 = __msa_asub_u_b(p0, q0); bDetaP1P0 = __msa_asub_u_b(p1, p0); bDetaQ1Q0 = __msa_asub_u_b(q1, q0); bDetaP0Q0 = (v16u8)__msa_clt_u_b(bDetaP0Q0, alpha); bDetaP1P0 = (v16u8)__msa_clt_u_b(bDetaP1P0, beta); bDetaQ1Q0 = (v16u8)__msa_clt_u_b(bDetaQ1Q0, beta); // Unsigned extend p0, p1, q0, q1 from 8 bits to 16 bits MSA_ILVR_B4(v8i16, zero, p0, zero, p1, zero, q0, zero, q1, p0_e, p1_e, q0_e, q1_e); f = (v16i8)bDetaP0Q0 & (v16i8)bDetaP1P0 & (v16i8)bDetaQ1Q0; // iDeta t0 = (((q0_e - p0_e) << 2) + (p1_e - q1_e) + const_4_h) >> 3; t0 = __msa_max_s_h(negTc_e, t0); t0 = __msa_min_s_h(tc_e, t0); // p0 t1 = p0_e + t0; t2 = t1 & const_not_255_h; t3 = __msa_cle_s_h((v8i16)zero, t1); flags = (v16i8)__msa_ceq_h(t2, (v8i16)zero); p0_e = (t1 & (v8i16)flags) + (t3 & (v8i16)(~flags)); // q0 t1 = q0_e - t0; t2 = t1 & const_not_255_h; t3 = __msa_cle_s_h((v8i16)zero, t1); flags = (v16i8)__msa_ceq_h(t2, (v8i16)zero); q0_e = (t1 & (v8i16)flags) + (t3 & (v8i16)(~flags)); MSA_PCKEV_B2(v8i16, p0_e, p0_e, q0_e, q0_e, t0, t1); flags = (v16i8)__msa_cle_s_b(zero, tc); flags &= f; p0 = (v16u8)(((v16i8)t0 & flags) + (p0 & (~flags))); q0 = (v16u8)(((v16i8)t1 & flags) + (q0 & (~flags))); // Store data to pPixCr MSA_ST_D(p0, 0, pPixCr - iStride); MSA_ST_D(q0, 0, pPixCr); } void DeblockChromaEq4V_msa(uint8_t* pPixCb, uint8_t* pPixCr, int32_t iStride, int32_t iAlpha, int32_t iBeta) { v16u8 p0, p1, q0, q1; v8i16 p0_e, p1_e, q0_e, q1_e; v16i8 f; // Use for temporary variable v8i16 t0, t1; v16u8 alpha, beta; v16u8 bDetaP0Q0, bDetaP1P0, bDetaQ1Q0; v8i16 const_2_h = __msa_ldi_h(2); v16i8 zero = { 0 }; alpha = (v16u8)__msa_fill_b(iAlpha); beta = (v16u8)__msa_fill_b(iBeta); // Cb // Load data from pPixCb MSA_LD_V4(v16u8, pPixCb - 2 * iStride, iStride, p1, p0, q0, q1); bDetaP0Q0 = __msa_asub_u_b(p0, q0); bDetaP1P0 = __msa_asub_u_b(p1, p0); bDetaQ1Q0 = __msa_asub_u_b(q1, q0); bDetaP0Q0 = (v16u8)__msa_clt_u_b(bDetaP0Q0, alpha); bDetaP1P0 = (v16u8)__msa_clt_u_b(bDetaP1P0, beta); bDetaQ1Q0 = (v16u8)__msa_clt_u_b(bDetaQ1Q0, beta); // Unsigned extend p0, p1, q0, q1 from 8 bits to 16 bits MSA_ILVR_B4(v8i16, zero, p0, zero, p1, zero, q0, zero, q1, p0_e, p1_e, q0_e, q1_e); f = (v16i8)bDetaP0Q0 & (v16i8)bDetaP1P0 & (v16i8)bDetaQ1Q0; // p0 p0_e = ((p1_e << 1) + p0_e + q1_e + const_2_h) >> 2; // q0 q0_e = ((q1_e << 1) + q0_e + p1_e + const_2_h) >> 2; MSA_PCKEV_B2(v8i16, p0_e, p0_e, q0_e, q0_e, t0, t1); p0 = (v16u8)(((v16i8)t0 & f) + (p0 & (~f))); q0 = (v16u8)(((v16i8)t1 & f) + (q0 & (~f))); // Store data to pPixCb MSA_ST_D(p0, 0, pPixCb - iStride); MSA_ST_D(q0, 0, pPixCb); // Cr // Load data from pPixCr MSA_LD_V4(v16u8, pPixCr - 2 * iStride, iStride, p1, p0, q0, q1); bDetaP0Q0 = __msa_asub_u_b(p0, q0); bDetaP1P0 = __msa_asub_u_b(p1, p0); bDetaQ1Q0 = __msa_asub_u_b(q1, q0); bDetaP0Q0 = (v16u8)__msa_clt_u_b(bDetaP0Q0, alpha); bDetaP1P0 = (v16u8)__msa_clt_u_b(bDetaP1P0, beta); bDetaQ1Q0 = (v16u8)__msa_clt_u_b(bDetaQ1Q0, beta); // Unsigned extend p0, p1, q0, q1 from 8 bits to 16 bits MSA_ILVR_B4(v8i16, zero, p0, zero, p1, zero, q0, zero, q1, p0_e, p1_e, q0_e, q1_e); f = (v16i8)bDetaP0Q0 & (v16i8)bDetaP1P0 & (v16i8)bDetaQ1Q0; // p0 p0_e = ((p1_e << 1) + p0_e + q1_e + const_2_h) >> 2; // q0 q0_e = ((q1_e << 1) + q0_e + p1_e + const_2_h) >> 2; MSA_PCKEV_B2(v8i16, p0_e, p0_e, q0_e, q0_e, t0, t1); p0 = (v16u8)(((v16i8)t0 & f) + (p0 & (~f))); q0 = (v16u8)(((v16i8)t1 & f) + (q0 & (~f))); // Store data to pPixCr MSA_ST_D(p0, 0, pPixCr - iStride); MSA_ST_D(q0, 0, pPixCr); } void DeblockChromaLt4H_msa(uint8_t* pPixCb, uint8_t* pPixCr, int32_t iStride, int32_t iAlpha, int32_t iBeta, int8_t* pTc) { v16u8 p0, p1, q0, q1; v8i16 p0_e, p1_e, q0_e, q1_e; v16i8 negTc, flags, f; v8i16 tc_e, negTc_e; // Use for temporary variable v8i16 t0, t1, t2, t3; v16u8 alpha, beta; v16u8 bDetaP0Q0, bDetaP1P0, bDetaQ1Q0; v8i16 const_4_h = __msa_ldi_h(4); v8i16 const_not_255_h = __msa_ldi_h(~255); v16i8 zero = { 0 }; v16i8 tc = { pTc[0 >> 1], pTc[1 >> 1], pTc[2 >> 1], pTc[3 >> 1], pTc[4 >> 1], pTc[5 >> 1], pTc[6 >> 1], pTc[7 >> 1] }; negTc = zero - tc; alpha = (v16u8)__msa_fill_b(iAlpha); beta = (v16u8)__msa_fill_b(iBeta); // Signed extend tc, negTc from 8 bits to 16 bits flags = __msa_clt_s_b(tc, zero); MSA_ILVR_B(v8i16, flags, tc, tc_e); flags = __msa_clt_s_b(negTc, zero); MSA_ILVR_B(v8i16, flags, negTc, negTc_e); // Cb // Load data from pPixCb MSA_LD_V8(v8i16, pPixCb - 2, iStride, p1_e, p0_e, q0_e, q1_e, t0, t1, t2, t3); // Transpose 8x4 to 4x8, we just need p0, p1, q0, q1 MSA_TRANSPOSE8x4_B(v16u8, p1_e, p0_e, q0_e, q1_e, t0, t1, t2, t3, p1, p0, q0, q1); bDetaP0Q0 = __msa_asub_u_b(p0, q0); bDetaP1P0 = __msa_asub_u_b(p1, p0); bDetaQ1Q0 = __msa_asub_u_b(q1, q0); bDetaP0Q0 = (v16u8)__msa_clt_u_b(bDetaP0Q0, alpha); bDetaP1P0 = (v16u8)__msa_clt_u_b(bDetaP1P0, beta); bDetaQ1Q0 = (v16u8)__msa_clt_u_b(bDetaQ1Q0, beta); // Unsigned extend p0, p1, q0, q1 from 8 bits to 16 bits MSA_ILVR_B4(v8i16, zero, p0, zero, p1, zero, q0, zero, q1, p0_e, p1_e, q0_e, q1_e); f = (v16i8)bDetaP0Q0 & (v16i8)bDetaP1P0 & (v16i8)bDetaQ1Q0; // iDeta t0 = (((q0_e - p0_e) << 2) + (p1_e - q1_e) + const_4_h) >> 3; t0 = __msa_max_s_h(negTc_e, t0); t0 = __msa_min_s_h(tc_e, t0); // p0 t1 = p0_e + t0; t2 = t1 & const_not_255_h; t3 = __msa_cle_s_h((v8i16)zero, t1); flags = (v16i8)__msa_ceq_h(t2, (v8i16)zero); p0_e = (t1 & (v8i16)flags) + (t3 & (v8i16)(~flags)); // q0 t1 = q0_e - t0; t2 = t1 & const_not_255_h; t3 = __msa_cle_s_h((v8i16)zero, t1); flags = (v16i8)__msa_ceq_h(t2, (v8i16)zero); q0_e = (t1 & (v8i16)flags) + (t3 & (v8i16)(~flags)); MSA_PCKEV_B2(v8i16, p0_e, p0_e, q0_e, q0_e, t0, t1); flags = (v16i8)__msa_cle_s_b(zero, tc); flags &= f; p0 = (v16u8)(((v16i8)t0 & flags) + (p0 & (~flags))); q0 = (v16u8)(((v16i8)t1 & flags) + (q0 & (~flags))); // Store data to pPixCb MSA_ILVR_B(v16u8, q0, p0, p0); MSA_ST_H8(p0, 0, 1, 2, 3, 4, 5, 6, 7, pPixCb - 1, iStride); // Cr // Load data from pPixCr MSA_LD_V8(v8i16, pPixCr - 2, iStride, p1_e, p0_e, q0_e, q1_e, t0, t1, t2, t3); // Transpose 8x4 to 4x8, we just need p0, p1, q0, q1 MSA_TRANSPOSE8x4_B(v16u8, p1_e, p0_e, q0_e, q1_e, t0, t1, t2, t3, p1, p0, q0, q1); bDetaP0Q0 = __msa_asub_u_b(p0, q0); bDetaP1P0 = __msa_asub_u_b(p1, p0); bDetaQ1Q0 = __msa_asub_u_b(q1, q0); bDetaP0Q0 = (v16u8)__msa_clt_u_b(bDetaP0Q0, alpha); bDetaP1P0 = (v16u8)__msa_clt_u_b(bDetaP1P0, beta); bDetaQ1Q0 = (v16u8)__msa_clt_u_b(bDetaQ1Q0, beta); // Unsigned extend p0, p1, q0, q1 from 8 bits to 16 bits MSA_ILVR_B4(v8i16, zero, p0, zero, p1, zero, q0, zero, q1, p0_e, p1_e, q0_e, q1_e); f = (v16i8)bDetaP0Q0 & (v16i8)bDetaP1P0 & (v16i8)bDetaQ1Q0; // iDeta t0 = (((q0_e - p0_e) << 2) + (p1_e - q1_e) + const_4_h) >> 3; t0 = __msa_max_s_h(negTc_e, t0); t0 = __msa_min_s_h(tc_e, t0); // p0 t1 = p0_e + t0; t2 = t1 & const_not_255_h; t3 = __msa_cle_s_h((v8i16)zero, t1); flags = (v16i8)__msa_ceq_h(t2, (v8i16)zero); p0_e = (t1 & (v8i16)flags) + (t3 & (v8i16)(~flags)); // q0 t1 = q0_e - t0; t2 = t1 & const_not_255_h; t3 = __msa_cle_s_h((v8i16)zero, t1); flags = (v16i8)__msa_ceq_h(t2, (v8i16)zero); q0_e = (t1 & (v8i16)flags) + (t3 & (v8i16)(~flags)); MSA_PCKEV_B2(v8i16, p0_e, p0_e, q0_e, q0_e, t0, t1); flags = (v16i8)__msa_cle_s_b(zero, tc); flags &= f; p0 = (v16u8)(((v16i8)t0 & flags) + (p0 & (~flags))); q0 = (v16u8)(((v16i8)t1 & flags) + (q0 & (~flags))); // Store data to pPixCr MSA_ILVR_B(v16u8, q0, p0, p0); MSA_ST_H8(p0, 0, 1, 2, 3, 4, 5, 6, 7, pPixCr - 1, iStride); } void DeblockChromaEq4H_msa(uint8_t* pPixCb, uint8_t* pPixCr, int32_t iStride, int32_t iAlpha, int32_t iBeta) { v16u8 p0, p1, q0, q1; v8i16 p0_e, p1_e, q0_e, q1_e; v16i8 f; // Use for temporary variable v8i16 t0, t1, t2, t3; v16u8 alpha, beta; v16u8 bDetaP0Q0, bDetaP1P0, bDetaQ1Q0; v8i16 const_2_h = __msa_ldi_h(2); v16i8 zero = { 0 }; alpha = (v16u8)__msa_fill_b(iAlpha); beta = (v16u8)__msa_fill_b(iBeta); // Cb // Load data from pPixCb MSA_LD_V8(v8i16, pPixCb - 2, iStride, p1_e, p0_e, q0_e, q1_e, t0, t1, t2, t3); // Transpose 8x4 to 4x8, we just need p0, p1, q0, q1 MSA_TRANSPOSE8x4_B(v16u8, p1_e, p0_e, q0_e, q1_e, t0, t1, t2, t3, p1, p0, q0, q1); bDetaP0Q0 = __msa_asub_u_b(p0, q0); bDetaP1P0 = __msa_asub_u_b(p1, p0); bDetaQ1Q0 = __msa_asub_u_b(q1, q0); bDetaP0Q0 = (v16u8)__msa_clt_u_b(bDetaP0Q0, alpha); bDetaP1P0 = (v16u8)__msa_clt_u_b(bDetaP1P0, beta); bDetaQ1Q0 = (v16u8)__msa_clt_u_b(bDetaQ1Q0, beta); // Unsigned extend p0, p1, q0, q1 from 8 bits to 16 bits MSA_ILVR_B4(v8i16, zero, p0, zero, p1, zero, q0, zero, q1, p0_e, p1_e, q0_e, q1_e); f = (v16i8)bDetaP0Q0 & (v16i8)bDetaP1P0 & (v16i8)bDetaQ1Q0; // p0 p0_e = ((p1_e << 1) + p0_e + q1_e + const_2_h) >> 2; // q0 q0_e = ((q1_e << 1) + q0_e + p1_e + const_2_h) >> 2; MSA_PCKEV_B2(v8i16, p0_e, p0_e, q0_e, q0_e, t0, t1); p0 = (v16u8)(((v16i8)t0 & f) + (p0 & (~f))); q0 = (v16u8)(((v16i8)t1 & f) + (q0 & (~f))); // Store data to pPixCb MSA_ILVR_B(v16u8, q0, p0, p0); MSA_ST_H8(p0, 0, 1, 2, 3, 4, 5, 6, 7, pPixCb - 1, iStride); // Cr // Load data from pPixCr MSA_LD_V8(v8i16, pPixCr - 2, iStride, p1_e, p0_e, q0_e, q1_e, t0, t1, t2, t3); // Transpose 8x4 to 4x8, we just need p0, p1, q0, q1 MSA_TRANSPOSE8x4_B(v16u8, p1_e, p0_e, q0_e, q1_e, t0, t1, t2, t3, p1, p0, q0, q1); bDetaP0Q0 = __msa_asub_u_b(p0, q0); bDetaP1P0 = __msa_asub_u_b(p1, p0); bDetaQ1Q0 = __msa_asub_u_b(q1, q0); bDetaP0Q0 = (v16u8)__msa_clt_u_b(bDetaP0Q0, alpha); bDetaP1P0 = (v16u8)__msa_clt_u_b(bDetaP1P0, beta); bDetaQ1Q0 = (v16u8)__msa_clt_u_b(bDetaQ1Q0, beta); // Unsigned extend p0, p1, q0, q1 from 8 bits to 16 bits MSA_ILVR_B4(v8i16, zero, p0, zero, p1, zero, q0, zero, q1, p0_e, p1_e, q0_e, q1_e); f = (v16i8)bDetaP0Q0 & (v16i8)bDetaP1P0 & (v16i8)bDetaQ1Q0; // p0 p0_e = ((p1_e << 1) + p0_e + q1_e + const_2_h) >> 2; // q0 q0_e = ((q1_e << 1) + q0_e + p1_e + const_2_h) >> 2; MSA_PCKEV_B2(v8i16, p0_e, p0_e, q0_e, q0_e, t0, t1); p0 = (v16u8)(((v16i8)t0 & f) + (p0 & (~f))); q0 = (v16u8)(((v16i8)t1 & f) + (q0 & (~f))); // Store data to pPixCr MSA_ILVR_B(v16u8, q0, p0, p0); MSA_ST_H8(p0, 0, 1, 2, 3, 4, 5, 6, 7, pPixCr - 1, iStride); } void WelsNonZeroCount_msa(int8_t* pNonZeroCount) { v16u8 src0, src1; v16u8 zero = { 0 }; v16u8 const_1 = (v16u8)__msa_fill_b(0x01); MSA_LD_V2(v16u8, pNonZeroCount, 16, src0, src1); src0 = (v16u8)__msa_ceq_b((v16i8)zero, (v16i8)src0); src1 = (v16u8)__msa_ceq_b((v16i8)zero, (v16i8)src1); src0 += const_1; src1 += const_1; MSA_ST_V(v16u8, src0, pNonZeroCount); MSA_ST_D(src1, 0, pNonZeroCount + 16); }