/***************************************************************************** * pixel-c.c: loongarch pixel metrics ***************************************************************************** * Copyright (C) 2023-2025 x264 project * * Authors: Hecai Yuan * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02111, USA. * * This program is also available under a commercial proprietary license. * For more information, contact us at licensing@x264.com. *****************************************************************************/ #include "common/common.h" #include "pixel.h" #include "predict.h" #if !HIGH_BIT_DEPTH uint64_t x264_pixel_hadamard_ac_8x8_lsx( uint8_t *p_pix, intptr_t i_stride ) { uint64_t u_sum; u_sum = x264_hadamard_ac_8x8_lsx( p_pix, i_stride ); return ( ( u_sum >> 34 ) << 32 ) + ( ( uint32_t ) u_sum >> 1 ); } uint64_t x264_pixel_hadamard_ac_8x16_lsx( uint8_t *p_pix, intptr_t i_stride ) { uint64_t u_sum; u_sum = x264_hadamard_ac_8x8_lsx( p_pix, i_stride ); u_sum += x264_hadamard_ac_8x8_lsx( p_pix + 8 * i_stride, i_stride ); return ( ( u_sum >> 34 ) << 32 ) + ( ( uint32_t ) u_sum >> 1 ); } uint64_t x264_pixel_hadamard_ac_16x8_lsx( uint8_t *p_pix, intptr_t i_stride ) { uint64_t u_sum; u_sum = x264_hadamard_ac_8x8_lsx( p_pix, i_stride ); u_sum += x264_hadamard_ac_8x8_lsx( p_pix + 8, i_stride ); return ( ( u_sum >> 34 ) << 32 ) + ( ( uint32_t ) u_sum >> 1 ); } uint64_t x264_pixel_hadamard_ac_16x16_lsx( uint8_t *p_pix, intptr_t i_stride ) { uint64_t u_sum; u_sum = x264_hadamard_ac_8x8_lsx( p_pix, i_stride ); u_sum += x264_hadamard_ac_8x8_lsx( p_pix + 8, i_stride ); u_sum += x264_hadamard_ac_8x8_lsx( p_pix + 8 * i_stride, i_stride ); u_sum += x264_hadamard_ac_8x8_lsx( p_pix + 8 * i_stride + 8, i_stride ); return ( ( u_sum >> 34 ) << 32 ) + ( ( uint32_t ) u_sum >> 1 ); } uint64_t x264_pixel_hadamard_ac_8x8_lasx( uint8_t *p_pix, intptr_t i_stride ) { uint64_t u_sum; u_sum = x264_hadamard_ac_8x8_lasx( p_pix, i_stride ); return ( ( u_sum >> 34 ) << 32 ) + ( ( uint32_t ) u_sum >> 1 ); } uint64_t x264_pixel_hadamard_ac_8x16_lasx( uint8_t *p_pix, intptr_t i_stride ) { uint64_t u_sum; u_sum = x264_hadamard_ac_8x8_lasx( p_pix, i_stride ); u_sum += x264_hadamard_ac_8x8_lasx( p_pix + ( i_stride << 3 ), i_stride ); return ( ( u_sum >> 34 ) << 32 ) + ( ( uint32_t ) u_sum >> 1 ); } void x264_intra_sa8d_x3_8x8_lsx( uint8_t *p_enc, uint8_t p_edge[36], int32_t p_sad_array[3] ) { ALIGNED_ARRAY_16( uint8_t, pix, [8 * FDEC_STRIDE] ); x264_predict_8x8_v_lsx( pix, p_edge ); p_sad_array[0] = x264_pixel_sa8d_8x8_lsx( pix, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_8x8_h_lsx( pix, p_edge ); p_sad_array[1] = x264_pixel_sa8d_8x8_lsx( pix, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_8x8_dc_lsx( pix, p_edge ); p_sad_array[2] = x264_pixel_sa8d_8x8_lsx( pix, FDEC_STRIDE, p_enc, FENC_STRIDE ); } void x264_intra_sa8d_x3_8x8_lasx( uint8_t *p_enc, uint8_t p_edge[36], int32_t p_sad_array[3] ) { ALIGNED_ARRAY_16( uint8_t, pix, [8 * FDEC_STRIDE] ); x264_predict_8x8_v_lsx( pix, p_edge ); p_sad_array[0] = x264_pixel_sa8d_8x8_lasx( pix, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_8x8_h_lasx( pix, p_edge ); p_sad_array[1] = x264_pixel_sa8d_8x8_lasx( pix, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_8x8_dc_lsx( pix, p_edge ); p_sad_array[2] = x264_pixel_sa8d_8x8_lasx( pix, FDEC_STRIDE, p_enc, FENC_STRIDE ); } void x264_intra_satd_x3_4x4_lsx( uint8_t *p_enc, uint8_t *p_dec, int32_t p_sad_array[3] ) { x264_predict_4x4_v_lsx( p_dec ); p_sad_array[0] = x264_pixel_satd_4x4_lsx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_4x4_h_lsx( p_dec ); p_sad_array[1] = x264_pixel_satd_4x4_lsx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_4x4_dc_lsx( p_dec ); p_sad_array[2] = x264_pixel_satd_4x4_lsx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); } void x264_intra_satd_x3_16x16_lsx( uint8_t *p_enc, uint8_t *p_dec, int32_t p_sad_array[3] ) { x264_predict_16x16_v_lsx( p_dec ); p_sad_array[0] = x264_pixel_satd_16x16_lsx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_16x16_h_lsx( p_dec ); p_sad_array[1] = x264_pixel_satd_16x16_lsx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_16x16_dc_lsx( p_dec ); p_sad_array[2] = x264_pixel_satd_16x16_lsx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); } void x264_intra_satd_x3_16x16_lasx( uint8_t *p_enc, uint8_t *p_dec, int32_t p_sad_array[3] ) { x264_predict_16x16_v_lsx( p_dec ); p_sad_array[0] = x264_pixel_satd_16x16_lasx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_16x16_h_lsx( p_dec ); p_sad_array[1] = x264_pixel_satd_16x16_lasx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_16x16_dc_lsx( p_dec ); p_sad_array[2] = x264_pixel_satd_16x16_lasx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); } void x264_intra_satd_x3_8x8c_lsx( uint8_t *p_enc, uint8_t *p_dec, int32_t p_sad_array[3] ) { x264_predict_8x8c_dc_lsx( p_dec ); p_sad_array[0] = x264_pixel_satd_8x8_lsx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_8x8c_h_lsx( p_dec ); p_sad_array[1] = x264_pixel_satd_8x8_lsx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_8x8c_v_lsx( p_dec ); p_sad_array[2] = x264_pixel_satd_8x8_lsx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); } void x264_intra_sad_x3_4x4_lsx( uint8_t *p_enc, uint8_t *p_dec, int32_t p_sad_array[3] ) { x264_predict_4x4_v_lsx( p_dec ); p_sad_array[0] = x264_pixel_sad_4x4_lsx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_4x4_h_lsx( p_dec ); p_sad_array[1] = x264_pixel_sad_4x4_lsx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_4x4_dc_lsx( p_dec ); p_sad_array[2] = x264_pixel_sad_4x4_lsx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); } void x264_intra_sad_x3_16x16_lsx( uint8_t *p_enc, uint8_t *p_dec, int32_t p_sad_array[3] ) { x264_predict_16x16_v_lsx( p_dec ); p_sad_array[0] = x264_pixel_sad_16x16_lsx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_16x16_h_lsx( p_dec ); p_sad_array[1] = x264_pixel_sad_16x16_lsx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_16x16_dc_lsx( p_dec ); p_sad_array[2] = x264_pixel_sad_16x16_lsx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); } void x264_intra_sad_x3_8x8_lsx( uint8_t *p_enc, uint8_t p_edge[36], int32_t p_sad_array[3] ) { ALIGNED_ARRAY_16( uint8_t, pix, [8 * FDEC_STRIDE] ); x264_predict_8x8_v_lsx( pix, p_edge ); p_sad_array[0] = x264_pixel_sad_8x8_lsx( pix, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_8x8_h_lsx( pix, p_edge ); p_sad_array[1] = x264_pixel_sad_8x8_lsx( pix, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_8x8_dc_lsx( pix, p_edge ); p_sad_array[2] = x264_pixel_sad_8x8_lsx( pix, FDEC_STRIDE, p_enc, FENC_STRIDE ); } void x264_intra_sad_x3_8x8c_lsx( uint8_t *p_enc, uint8_t *p_dec, int32_t p_sad_array[3] ) { x264_predict_8x8c_dc_lsx( p_dec ); p_sad_array[0] = x264_pixel_sad_8x8_lsx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_8x8c_h_lsx( p_dec ); p_sad_array[1] = x264_pixel_sad_8x8_lsx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); x264_predict_8x8c_v_lsx( p_dec ); p_sad_array[2] = x264_pixel_sad_8x8_lsx( p_dec, FDEC_STRIDE, p_enc, FENC_STRIDE ); } #endif