ref: 6367818c500291bcde56cd126dace3b825be924a
dir: /vp8/encoder/mips/msa/encodeopt_msa.c/
/* * Copyright (c) 2015 The WebM project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #include "./vp8_rtcd.h" #include "vp8/common/mips/msa/vp8_macros_msa.h" #include "vp8/encoder/block.h" int32_t vp8_block_error_msa(int16_t *coeff_ptr, int16_t *dq_coeff_ptr) { int32_t err = 0; uint32_t loop_cnt; v8i16 coeff, dq_coeff, coeff0, coeff1; v4i32 diff0, diff1; v2i64 err0 = { 0 }; v2i64 err1 = { 0 }; for (loop_cnt = 2; loop_cnt--;) { coeff = LD_SH(coeff_ptr); dq_coeff = LD_SH(dq_coeff_ptr); ILVRL_H2_SH(coeff, dq_coeff, coeff0, coeff1); HSUB_UH2_SW(coeff0, coeff1, diff0, diff1); DPADD_SD2_SD(diff0, diff1, err0, err1); coeff_ptr += 8; dq_coeff_ptr += 8; } err0 += __msa_splati_d(err0, 1); err1 += __msa_splati_d(err1, 1); err = __msa_copy_s_d(err0, 0); err += __msa_copy_s_d(err1, 0); return err; } int32_t vp8_mbblock_error_msa(MACROBLOCK *mb, int32_t dc) { BLOCK *be; BLOCKD *bd; int16_t *coeff_ptr, *dq_coeff_ptr; int32_t err = 0; uint32_t loop_cnt; v8i16 coeff, coeff0, coeff1, coeff2, coeff3, coeff4; v8i16 dq_coeff, dq_coeff2, dq_coeff3, dq_coeff4; v4i32 diff0, diff1; v2i64 err0, err1; v16u8 zero = { 0 }; v16u8 mask0 = (v16u8)__msa_ldi_b(255); if (1 == dc) { mask0 = (v16u8)__msa_insve_w((v4i32)mask0, 0, (v4i32)zero); } for (loop_cnt = 0; loop_cnt < 8; ++loop_cnt) { be = &mb->block[2 * loop_cnt]; bd = &mb->e_mbd.block[2 * loop_cnt]; coeff_ptr = be->coeff; dq_coeff_ptr = bd->dqcoeff; coeff = LD_SH(coeff_ptr); dq_coeff = LD_SH(dq_coeff_ptr); coeff_ptr += 8; dq_coeff_ptr += 8; coeff2 = LD_SH(coeff_ptr); dq_coeff2 = LD_SH(dq_coeff_ptr); be = &mb->block[2 * loop_cnt + 1]; bd = &mb->e_mbd.block[2 * loop_cnt + 1]; coeff_ptr = be->coeff; dq_coeff_ptr = bd->dqcoeff; coeff3 = LD_SH(coeff_ptr); dq_coeff3 = LD_SH(dq_coeff_ptr); coeff_ptr += 8; dq_coeff_ptr += 8; coeff4 = LD_SH(coeff_ptr); dq_coeff4 = LD_SH(dq_coeff_ptr); ILVRL_H2_SH(coeff, dq_coeff, coeff0, coeff1); HSUB_UH2_SW(coeff0, coeff1, diff0, diff1); diff0 = (v4i32)__msa_bmnz_v(zero, (v16u8)diff0, mask0); DOTP_SW2_SD(diff0, diff1, diff0, diff1, err0, err1); ILVRL_H2_SH(coeff2, dq_coeff2, coeff0, coeff1); HSUB_UH2_SW(coeff0, coeff1, diff0, diff1); DPADD_SD2_SD(diff0, diff1, err0, err1); err0 += __msa_splati_d(err0, 1); err1 += __msa_splati_d(err1, 1); err += __msa_copy_s_d(err0, 0); err += __msa_copy_s_d(err1, 0); ILVRL_H2_SH(coeff3, dq_coeff3, coeff0, coeff1); HSUB_UH2_SW(coeff0, coeff1, diff0, diff1); diff0 = (v4i32)__msa_bmnz_v(zero, (v16u8)diff0, mask0); DOTP_SW2_SD(diff0, diff1, diff0, diff1, err0, err1); ILVRL_H2_SH(coeff4, dq_coeff4, coeff0, coeff1); HSUB_UH2_SW(coeff0, coeff1, diff0, diff1); DPADD_SD2_SD(diff0, diff1, err0, err1); err0 += __msa_splati_d(err0, 1); err1 += __msa_splati_d(err1, 1); err += __msa_copy_s_d(err0, 0); err += __msa_copy_s_d(err1, 0); } return err; } int32_t vp8_mbuverror_msa(MACROBLOCK *mb) { BLOCK *be; BLOCKD *bd; int16_t *coeff_ptr, *dq_coeff_ptr; int32_t err = 0; uint32_t loop_cnt; v8i16 coeff, coeff0, coeff1, coeff2, coeff3, coeff4; v8i16 dq_coeff, dq_coeff2, dq_coeff3, dq_coeff4; v4i32 diff0, diff1; v2i64 err0, err1, err_dup0, err_dup1; for (loop_cnt = 16; loop_cnt < 24; loop_cnt += 2) { be = &mb->block[loop_cnt]; bd = &mb->e_mbd.block[loop_cnt]; coeff_ptr = be->coeff; dq_coeff_ptr = bd->dqcoeff; coeff = LD_SH(coeff_ptr); dq_coeff = LD_SH(dq_coeff_ptr); coeff_ptr += 8; dq_coeff_ptr += 8; coeff2 = LD_SH(coeff_ptr); dq_coeff2 = LD_SH(dq_coeff_ptr); be = &mb->block[loop_cnt + 1]; bd = &mb->e_mbd.block[loop_cnt + 1]; coeff_ptr = be->coeff; dq_coeff_ptr = bd->dqcoeff; coeff3 = LD_SH(coeff_ptr); dq_coeff3 = LD_SH(dq_coeff_ptr); coeff_ptr += 8; dq_coeff_ptr += 8; coeff4 = LD_SH(coeff_ptr); dq_coeff4 = LD_SH(dq_coeff_ptr); ILVRL_H2_SH(coeff, dq_coeff, coeff0, coeff1); HSUB_UH2_SW(coeff0, coeff1, diff0, diff1); DOTP_SW2_SD(diff0, diff1, diff0, diff1, err0, err1); ILVRL_H2_SH(coeff2, dq_coeff2, coeff0, coeff1); HSUB_UH2_SW(coeff0, coeff1, diff0, diff1); DPADD_SD2_SD(diff0, diff1, err0, err1); err_dup0 = __msa_splati_d(err0, 1); err_dup1 = __msa_splati_d(err1, 1); ADD2(err0, err_dup0, err1, err_dup1, err0, err1); err += __msa_copy_s_d(err0, 0); err += __msa_copy_s_d(err1, 0); ILVRL_H2_SH(coeff3, dq_coeff3, coeff0, coeff1); HSUB_UH2_SW(coeff0, coeff1, diff0, diff1); DOTP_SW2_SD(diff0, diff1, diff0, diff1, err0, err1); ILVRL_H2_SH(coeff4, dq_coeff4, coeff0, coeff1); HSUB_UH2_SW(coeff0, coeff1, diff0, diff1); DPADD_SD2_SD(diff0, diff1, err0, err1); err_dup0 = __msa_splati_d(err0, 1); err_dup1 = __msa_splati_d(err1, 1); ADD2(err0, err_dup0, err1, err_dup1, err0, err1); err += __msa_copy_s_d(err0, 0); err += __msa_copy_s_d(err1, 0); } return err; }