/***************************************************************************** * quant-c.c: msa quantization and level-run ***************************************************************************** * Copyright (C) 2015-2016 x264 project * * Authors: Rishikesh More * * 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 "macros.h" #if !HIGH_BIT_DEPTH static void avc_dequant_4x4_msa( int16_t *p_dct, int32_t pi_dequant_mf[6][16], int32_t i_qp ) { const int32_t i_mf = i_qp % 6; const int32_t q_bits = i_qp / 6 - 4; v8i16 dct0, dct1; v4i32 dequant_m_f0, dequant_m_f1, dequant_m_f2, dequant_m_f3; LD_SH2( p_dct, 8, dct0, dct1 ); LD_SW2( pi_dequant_mf[i_mf], 4, dequant_m_f0, dequant_m_f1 ); LD_SW2( pi_dequant_mf[i_mf] + 8, 4, dequant_m_f2, dequant_m_f3 ); if ( q_bits >= 0 ) { v8i16 dequant_mf_h0, dequant_mf_h1, q_bits_vec; q_bits_vec = __msa_fill_h( q_bits ); PCKEV_H2_SH( dequant_m_f1, dequant_m_f0, dequant_m_f3, dequant_m_f2, dequant_mf_h0, dequant_mf_h1 ); dct0 *= dequant_mf_h0; dct1 *= dequant_mf_h1; dct0 <<= q_bits_vec; dct1 <<= q_bits_vec; ST_SH2( dct0, dct1, p_dct, 8 ); } else { const int32_t q_bits_add = 1 << ( -q_bits - 1 ); v4i32 dct_signed_w0, dct_signed_w1, dct_signed_w2, dct_signed_w3; v4i32 q_bits_vec, q_bits_vec_add; q_bits_vec_add = __msa_fill_w( q_bits_add ); q_bits_vec = __msa_fill_w( -q_bits ); UNPCK_SH_SW( dct0, dct_signed_w0, dct_signed_w1 ); UNPCK_SH_SW( dct1, dct_signed_w2, dct_signed_w3 ); dct_signed_w0 *= dequant_m_f0; dct_signed_w1 *= dequant_m_f1; dct_signed_w2 *= dequant_m_f2; dct_signed_w3 *= dequant_m_f3; dct_signed_w0 += q_bits_vec_add; dct_signed_w1 += q_bits_vec_add; dct_signed_w2 += q_bits_vec_add; dct_signed_w3 += q_bits_vec_add; SRA_4V( dct_signed_w0, dct_signed_w1, dct_signed_w2, dct_signed_w3, q_bits_vec ); PCKEV_H2_SH( dct_signed_w1, dct_signed_w0, dct_signed_w3, dct_signed_w2, dct0, dct1 ); ST_SH2( dct0, dct1, p_dct, 8 ); } } static void avc_dequant_8x8_msa( int16_t *p_dct, int32_t pi_dequant_mf[6][64], int32_t i_qp ) { const int32_t i_mf = i_qp % 6; const int32_t q_bits = i_qp / 6 - 6; v8i16 dct0, dct1, dct2, dct3, dct4, dct5, dct6, dct7; v4i32 dequant_m_f0, dequant_m_f1, dequant_m_f2, dequant_m_f3; v4i32 dequant_m_f4, dequant_m_f5, dequant_m_f6, dequant_m_f7; v4i32 dequant_m_f8, dequant_m_f9, dequant_m_f10, dequant_m_f11; v4i32 dequant_m_f12, dequant_m_f13, dequant_m_f14, dequant_m_f15; LD_SH8( p_dct, 8, dct0, dct1, dct2, dct3, dct4, dct5, dct6, dct7 ); LD_SW2( pi_dequant_mf[i_mf], 4, dequant_m_f0, dequant_m_f1 ); LD_SW2( pi_dequant_mf[i_mf] + 8, 4, dequant_m_f2, dequant_m_f3 ); LD_SW2( pi_dequant_mf[i_mf] + 16, 4, dequant_m_f4, dequant_m_f5 ); LD_SW2( pi_dequant_mf[i_mf] + 24, 4, dequant_m_f6, dequant_m_f7 ); LD_SW2( pi_dequant_mf[i_mf] + 32, 4, dequant_m_f8, dequant_m_f9 ); LD_SW2( pi_dequant_mf[i_mf] + 40, 4, dequant_m_f10, dequant_m_f11 ); LD_SW2( pi_dequant_mf[i_mf] + 48, 4, dequant_m_f12, dequant_m_f13 ); LD_SW2( pi_dequant_mf[i_mf] + 56, 4, dequant_m_f14, dequant_m_f15 ); if ( q_bits >= 0 ) { v8i16 q_bits_vec; v8i16 dequant_mf_h0, dequant_mf_h1, dequant_mf_h2, dequant_mf_h3; v8i16 dequant_mf_h4, dequant_mf_h5, dequant_mf_h6, dequant_mf_h7; q_bits_vec = __msa_fill_h( q_bits ); PCKEV_H4_SH( dequant_m_f1, dequant_m_f0, dequant_m_f3, dequant_m_f2, dequant_m_f5, dequant_m_f4, dequant_m_f7, dequant_m_f6, dequant_mf_h0, dequant_mf_h1, dequant_mf_h2, dequant_mf_h3 ); PCKEV_H4_SH( dequant_m_f9, dequant_m_f8, dequant_m_f11, dequant_m_f10, dequant_m_f13, dequant_m_f12, dequant_m_f15, dequant_m_f14, dequant_mf_h4, dequant_mf_h5, dequant_mf_h6, dequant_mf_h7 ); dct0 *= dequant_mf_h0; dct1 *= dequant_mf_h1; dct2 *= dequant_mf_h2; dct3 *= dequant_mf_h3; dct4 *= dequant_mf_h4; dct5 *= dequant_mf_h5; dct6 *= dequant_mf_h6; dct7 *= dequant_mf_h7; SLLI_4V( dct0, dct1, dct2, dct3, q_bits_vec ); SLLI_4V( dct4, dct5, dct6, dct7, q_bits_vec ); ST_SH8( dct0, dct1, dct2, dct3, dct4, dct5, dct6, dct7, p_dct, 8 ); } else { const int32_t q_bits_add = 1 << ( -q_bits - 1 ); v4i32 dct_signed_w0, dct_signed_w1, dct_signed_w2, dct_signed_w3; v4i32 dct_signed_w4, dct_signed_w5, dct_signed_w6, dct_signed_w7; v4i32 dct_signed_w8, dct_signed_w9, dct_signed_w10, dct_signed_w11; v4i32 dct_signed_w12, dct_signed_w13, dct_signed_w14, dct_signed_w15; v4i32 q_bits_vec, q_bits_vec_add; q_bits_vec_add = __msa_fill_w( q_bits_add ); q_bits_vec = __msa_fill_w( -q_bits ); UNPCK_SH_SW( dct0, dct_signed_w0, dct_signed_w1 ); UNPCK_SH_SW( dct1, dct_signed_w2, dct_signed_w3 ); UNPCK_SH_SW( dct2, dct_signed_w4, dct_signed_w5 ); UNPCK_SH_SW( dct3, dct_signed_w6, dct_signed_w7 ); UNPCK_SH_SW( dct4, dct_signed_w8, dct_signed_w9 ); UNPCK_SH_SW( dct5, dct_signed_w10, dct_signed_w11 ); UNPCK_SH_SW( dct6, dct_signed_w12, dct_signed_w13 ); UNPCK_SH_SW( dct7, dct_signed_w14, dct_signed_w15 ); dct_signed_w0 *= dequant_m_f0; dct_signed_w1 *= dequant_m_f1; dct_signed_w2 *= dequant_m_f2; dct_signed_w3 *= dequant_m_f3; dct_signed_w4 *= dequant_m_f4; dct_signed_w5 *= dequant_m_f5; dct_signed_w6 *= dequant_m_f6; dct_signed_w7 *= dequant_m_f7; dct_signed_w8 *= dequant_m_f8; dct_signed_w9 *= dequant_m_f9; dct_signed_w10 *= dequant_m_f10; dct_signed_w11 *= dequant_m_f11; dct_signed_w12 *= dequant_m_f12; dct_signed_w13 *= dequant_m_f13; dct_signed_w14 *= dequant_m_f14; dct_signed_w15 *= dequant_m_f15; dct_signed_w0 += q_bits_vec_add; dct_signed_w1 += q_bits_vec_add; dct_signed_w2 += q_bits_vec_add; dct_signed_w3 += q_bits_vec_add; dct_signed_w4 += q_bits_vec_add; dct_signed_w5 += q_bits_vec_add; dct_signed_w6 += q_bits_vec_add; dct_signed_w7 += q_bits_vec_add; dct_signed_w8 += q_bits_vec_add; dct_signed_w9 += q_bits_vec_add; dct_signed_w10 += q_bits_vec_add; dct_signed_w11 += q_bits_vec_add; dct_signed_w12 += q_bits_vec_add; dct_signed_w13 += q_bits_vec_add; dct_signed_w14 += q_bits_vec_add; dct_signed_w15 += q_bits_vec_add; SRA_4V( dct_signed_w0, dct_signed_w1, dct_signed_w2, dct_signed_w3, q_bits_vec ); SRA_4V( dct_signed_w4, dct_signed_w5, dct_signed_w6, dct_signed_w7, q_bits_vec ); SRA_4V( dct_signed_w8, dct_signed_w9, dct_signed_w10, dct_signed_w11, q_bits_vec ); SRA_4V( dct_signed_w12, dct_signed_w13, dct_signed_w14, dct_signed_w15, q_bits_vec ); PCKEV_H4_SH( dct_signed_w1, dct_signed_w0, dct_signed_w3, dct_signed_w2, dct_signed_w5, dct_signed_w4, dct_signed_w7, dct_signed_w6, dct0, dct1, dct2, dct3 ); PCKEV_H4_SH( dct_signed_w9, dct_signed_w8, dct_signed_w11, dct_signed_w10, dct_signed_w13, dct_signed_w12, dct_signed_w15, dct_signed_w14, dct4, dct5, dct6, dct7 ); ST_SH8( dct0, dct1, dct2, dct3, dct4, dct5, dct6, dct7, p_dct, 8 ); } } static void avc_dequant_4x4_dc_msa( int16_t *p_dct, int32_t pi_dequant_mf[6][16], int32_t i_qp ) { const int32_t q_bits = i_qp / 6 - 6; int32_t i_dmf = pi_dequant_mf[i_qp % 6][0]; v8i16 dct0, dct1, dequant_mf_h; LD_SH2( p_dct, 8, dct0, dct1 ); if ( q_bits >= 0 ) { i_dmf <<= q_bits; dequant_mf_h = __msa_fill_h( i_dmf ); dct0 = dct0 * dequant_mf_h; dct1 = dct1 * dequant_mf_h; ST_SH2( dct0, dct1, p_dct, 8 ); } else { const int32_t q_bits_add = 1 << ( -q_bits - 1 ); v4i32 dequant_m_f, q_bits_vec, q_bits_vec_add; v4i32 dct_signed_w0, dct_signed_w1, dct_signed_w2, dct_signed_w3; q_bits_vec_add = __msa_fill_w( q_bits_add ); q_bits_vec = __msa_fill_w( -q_bits ); dequant_m_f = __msa_fill_w( i_dmf ); UNPCK_SH_SW( dct0, dct_signed_w0, dct_signed_w1 ); UNPCK_SH_SW( dct1, dct_signed_w2, dct_signed_w3 ); dct_signed_w0 *= dequant_m_f; dct_signed_w1 *= dequant_m_f; dct_signed_w2 *= dequant_m_f; dct_signed_w3 *= dequant_m_f; dct_signed_w0 += q_bits_vec_add; dct_signed_w1 += q_bits_vec_add; dct_signed_w2 += q_bits_vec_add; dct_signed_w3 += q_bits_vec_add; SRA_4V( dct_signed_w0, dct_signed_w1, dct_signed_w2, dct_signed_w3, q_bits_vec ); PCKEV_H2_SH( dct_signed_w1, dct_signed_w0, dct_signed_w3, dct_signed_w2, dct0, dct1 ); ST_SH2( dct0, dct1, p_dct, 8 ); } } static int32_t avc_quant_4x4_msa( int16_t *p_dct, uint16_t *p_mf, uint16_t *p_bias ) { int32_t non_zero = 0; v8i16 dct0, dct1; v8i16 zero = { 0 }; v8i16 dct0_mask, dct1_mask; v8i16 dct_h0, dct_h1, mf_h0, mf_h1, bias_h0, bias_h1; v4i32 dct_signed_w0, dct_signed_w1, dct_signed_w2, dct_signed_w3; v4i32 dct_w0, dct_w1, dct_w2, dct_w3; v4i32 mf_vec0, mf_vec1, mf_vec2, mf_vec3; v4i32 bias0, bias1, bias2, bias3; LD_SH2( p_dct, 8, dct0, dct1 ); LD_SH2( p_bias, 8, bias_h0, bias_h1 ); LD_SH2( p_mf, 8, mf_h0, mf_h1 ); dct0_mask = __msa_clei_s_h( dct0, 0 ); dct1_mask = __msa_clei_s_h( dct1, 0 ); UNPCK_SH_SW( dct0, dct_signed_w0, dct_signed_w1 ); UNPCK_SH_SW( dct1, dct_signed_w2, dct_signed_w3 ); ILVR_H2_SW( zero, bias_h0, zero, bias_h1, bias0, bias2 ); ILVL_H2_SW( zero, bias_h0, zero, bias_h1, bias1, bias3 ); ILVR_H2_SW( zero, mf_h0, zero, mf_h1, mf_vec0, mf_vec2 ); ILVL_H2_SW( zero, mf_h0, zero, mf_h1, mf_vec1, mf_vec3 ); dct_w1 = __msa_add_a_w( dct_signed_w1, bias1 ); dct_w0 = __msa_add_a_w( dct_signed_w0, bias0 ); dct_w2 = __msa_add_a_w( dct_signed_w2, bias2 ); dct_w3 = __msa_add_a_w( dct_signed_w3, bias3 ); dct_w0 *= mf_vec0; dct_w1 *= mf_vec1; dct_w2 *= mf_vec2; dct_w3 *= mf_vec3; SRA_4V( dct_w0, dct_w1, dct_w2, dct_w3, 16 ); PCKEV_H2_SH( dct_w1, dct_w0, dct_w3, dct_w2, dct_h0, dct_h1 ); dct0 = zero - dct_h0; dct1 = zero - dct_h1; dct0 = ( v8i16 ) __msa_bmnz_v( ( v16u8 ) dct_h0, ( v16u8 ) dct0, ( v16u8 ) dct0_mask ); dct1 = ( v8i16 ) __msa_bmnz_v( ( v16u8 ) dct_h1, ( v16u8 ) dct1, ( v16u8 ) dct1_mask ); non_zero = HADD_SW_S32( ( v4u32 ) ( dct_h0 + dct_h1 ) ); ST_SH2( dct0, dct1, p_dct, 8 ); return !!non_zero; } static int32_t avc_quant_8x8_msa( int16_t *p_dct, uint16_t *p_mf, uint16_t *p_bias ) { int32_t non_zero = 0; v8i16 dct0, dct1, dct2, dct3; v8i16 zero = { 0 }; v8i16 dct0_mask, dct1_mask, dct2_mask, dct3_mask; v8i16 dct_h0, dct_h1, dct_h2, dct_h3, mf_h0, mf_h1, mf_h2, mf_h3; v8i16 bias_h0, bias_h1, bias_h2, bias_h3; v4i32 dct_w0, dct_w1, dct_w2, dct_w3, dct_w4, dct_w5, dct_w6, dct_w7; v4i32 dct_signed_w0, dct_signed_w1, dct_signed_w2, dct_signed_w3; v4i32 dct_signed_w4, dct_signed_w5, dct_signed_w6, dct_signed_w7; v4i32 mf_vec0, mf_vec1, mf_vec2, mf_vec3; v4i32 mf_vec4, mf_vec5, mf_vec6, mf_vec7; v4i32 bias0, bias1, bias2, bias3, bias4, bias5, bias6, bias7; LD_SH4( p_dct, 8, dct0, dct1, dct2, dct3 ); dct0_mask = __msa_clei_s_h( dct0, 0 ); dct1_mask = __msa_clei_s_h( dct1, 0 ); dct2_mask = __msa_clei_s_h( dct2, 0 ); dct3_mask = __msa_clei_s_h( dct3, 0 ); UNPCK_SH_SW( dct0, dct_signed_w0, dct_signed_w1 ); UNPCK_SH_SW( dct1, dct_signed_w2, dct_signed_w3 ); UNPCK_SH_SW( dct2, dct_signed_w4, dct_signed_w5 ); UNPCK_SH_SW( dct3, dct_signed_w6, dct_signed_w7 ); LD_SH4( p_bias, 8, bias_h0, bias_h1, bias_h2, bias_h3 ); ILVR_H4_SW( zero, bias_h0, zero, bias_h1, zero, bias_h2, zero, bias_h3, bias0, bias2, bias4, bias6 ); ILVL_H4_SW( zero, bias_h0, zero, bias_h1, zero, bias_h2, zero, bias_h3, bias1, bias3, bias5, bias7 ); LD_SH4( p_mf, 8, mf_h0, mf_h1, mf_h2, mf_h3 ); ILVR_H4_SW( zero, mf_h0, zero, mf_h1, zero, mf_h2, zero, mf_h3, mf_vec0, mf_vec2, mf_vec4, mf_vec6 ); ILVL_H4_SW( zero, mf_h0, zero, mf_h1, zero, mf_h2, zero, mf_h3, mf_vec1, mf_vec3, mf_vec5, mf_vec7 ); dct_w0 = __msa_add_a_w( dct_signed_w0, bias0 ); dct_w1 = __msa_add_a_w( dct_signed_w1, bias1 ); dct_w2 = __msa_add_a_w( dct_signed_w2, bias2 ); dct_w3 = __msa_add_a_w( dct_signed_w3, bias3 ); dct_w4 = __msa_add_a_w( dct_signed_w4, bias4 ); dct_w5 = __msa_add_a_w( dct_signed_w5, bias5 ); dct_w6 = __msa_add_a_w( dct_signed_w6, bias6 ); dct_w7 = __msa_add_a_w( dct_signed_w7, bias7 ); dct_w0 *= mf_vec0; dct_w1 *= mf_vec1; dct_w2 *= mf_vec2; dct_w3 *= mf_vec3; dct_w4 *= mf_vec4; dct_w5 *= mf_vec5; dct_w6 *= mf_vec6; dct_w7 *= mf_vec7; SRA_4V( dct_w0, dct_w1, dct_w2, dct_w3, 16 ); SRA_4V( dct_w4, dct_w5, dct_w6, dct_w7, 16 ); PCKEV_H4_SH( dct_w1, dct_w0, dct_w3, dct_w2, dct_w5, dct_w4, dct_w7, dct_w6, dct_h0, dct_h1, dct_h2, dct_h3 ); SUB4( zero, dct_h0, zero, dct_h1, zero, dct_h2, zero, dct_h3, dct0, dct1, dct2, dct3 ); dct0 = ( v8i16 ) __msa_bmnz_v( ( v16u8 ) dct_h0, ( v16u8 ) dct0, ( v16u8 ) dct0_mask ); dct1 = ( v8i16 ) __msa_bmnz_v( ( v16u8 ) dct_h1, ( v16u8 ) dct1, ( v16u8 ) dct1_mask ); dct2 = ( v8i16 ) __msa_bmnz_v( ( v16u8 ) dct_h2, ( v16u8 ) dct2, ( v16u8 ) dct2_mask ); dct3 = ( v8i16 ) __msa_bmnz_v( ( v16u8 ) dct_h3, ( v16u8 ) dct3, ( v16u8 ) dct3_mask ); non_zero = HADD_SW_S32( ( v4u32 )( dct_h0 + dct_h1 + dct_h2 + dct_h3 ) ); ST_SH4( dct0, dct1, dct2, dct3, p_dct, 8 ); LD_SH4( p_dct + 32, 8, dct0, dct1, dct2, dct3 ); dct0_mask = __msa_clei_s_h( dct0, 0 ); dct1_mask = __msa_clei_s_h( dct1, 0 ); dct2_mask = __msa_clei_s_h( dct2, 0 ); dct3_mask = __msa_clei_s_h( dct3, 0 ); UNPCK_SH_SW( dct0, dct_signed_w0, dct_signed_w1 ); UNPCK_SH_SW( dct1, dct_signed_w2, dct_signed_w3 ); UNPCK_SH_SW( dct2, dct_signed_w4, dct_signed_w5 ); UNPCK_SH_SW( dct3, dct_signed_w6, dct_signed_w7 ); LD_SH4( p_bias + 32, 8, bias_h0, bias_h1, bias_h2, bias_h3 ); ILVR_H4_SW( zero, bias_h0, zero, bias_h1, zero, bias_h2, zero, bias_h3, bias0, bias2, bias4, bias6 ); ILVL_H4_SW( zero, bias_h0, zero, bias_h1, zero, bias_h2, zero, bias_h3, bias1, bias3, bias5, bias7 ); LD_SH4( p_mf + 32, 8, mf_h0, mf_h1, mf_h2, mf_h3 ); ILVR_H4_SW( zero, mf_h0, zero, mf_h1, zero, mf_h2, zero, mf_h3, mf_vec0, mf_vec2, mf_vec4, mf_vec6 ); ILVL_H4_SW( zero, mf_h0, zero, mf_h1, zero, mf_h2, zero, mf_h3, mf_vec1, mf_vec3, mf_vec5, mf_vec7 ); dct_w0 = __msa_add_a_w( dct_signed_w0, bias0 ); dct_w1 = __msa_add_a_w( dct_signed_w1, bias1 ); dct_w2 = __msa_add_a_w( dct_signed_w2, bias2 ); dct_w3 = __msa_add_a_w( dct_signed_w3, bias3 ); dct_w4 = __msa_add_a_w( dct_signed_w4, bias4 ); dct_w5 = __msa_add_a_w( dct_signed_w5, bias5 ); dct_w6 = __msa_add_a_w( dct_signed_w6, bias6 ); dct_w7 = __msa_add_a_w( dct_signed_w7, bias7 ); dct_w0 *= mf_vec0; dct_w1 *= mf_vec1; dct_w2 *= mf_vec2; dct_w3 *= mf_vec3; dct_w4 *= mf_vec4; dct_w5 *= mf_vec5; dct_w6 *= mf_vec6; dct_w7 *= mf_vec7; SRA_4V( dct_w0, dct_w1, dct_w2, dct_w3, 16 ); SRA_4V( dct_w4, dct_w5, dct_w6, dct_w7, 16 ); PCKEV_H2_SH( dct_w1, dct_w0, dct_w3, dct_w2, dct_h0, dct_h1 ); PCKEV_H2_SH( dct_w5, dct_w4, dct_w7, dct_w6, dct_h2, dct_h3 ); SUB4( zero, dct_h0, zero, dct_h1, zero, dct_h2, zero, dct_h3, dct0, dct1, dct2, dct3 ); dct0 = ( v8i16 ) __msa_bmnz_v( ( v16u8 ) dct_h0, ( v16u8 ) dct0, ( v16u8 ) dct0_mask ); dct1 = ( v8i16 ) __msa_bmnz_v( ( v16u8 ) dct_h1, ( v16u8 ) dct1, ( v16u8 ) dct1_mask ); dct2 = ( v8i16 ) __msa_bmnz_v( ( v16u8 ) dct_h2, ( v16u8 ) dct2, ( v16u8 ) dct2_mask ); dct3 = ( v8i16 ) __msa_bmnz_v( ( v16u8 ) dct_h3, ( v16u8 ) dct3, ( v16u8 ) dct3_mask ); non_zero += HADD_SW_S32( ( v4u32 ) ( dct_h0 + dct_h1 + dct_h2 + dct_h3 ) ); ST_SH4( dct0, dct1, dct2, dct3, p_dct + 32, 8 ); return !!non_zero; } static int32_t avc_quant_4x4_dc_msa( int16_t *p_dct, int32_t i_mf, int32_t i_bias ) { int32_t non_zero = 0; v8i16 dct0, dct1, dct0_mask, dct1_mask; v8i16 zero = { 0 }; v8i16 dct_h0, dct_h1; v4i32 dct_signed_w0, dct_signed_w1, dct_signed_w2, dct_signed_w3; v4i32 dct_w0, dct_w1, dct_w2, dct_w3; v4i32 mf_vec, bias_vec; LD_SH2( p_dct, 8, dct0, dct1 ); dct0_mask = __msa_clei_s_h( dct0, 0 ); dct1_mask = __msa_clei_s_h( dct1, 0 ); UNPCK_SH_SW( dct0, dct_signed_w0, dct_signed_w1 ); UNPCK_SH_SW( dct1, dct_signed_w2, dct_signed_w3 ); bias_vec = __msa_fill_w( i_bias ); mf_vec = __msa_fill_w( i_mf ); dct_w0 = __msa_add_a_w( dct_signed_w0, bias_vec ); dct_w1 = __msa_add_a_w( dct_signed_w1, bias_vec ); dct_w2 = __msa_add_a_w( dct_signed_w2, bias_vec ); dct_w3 = __msa_add_a_w( dct_signed_w3, bias_vec ); dct_w0 *= mf_vec; dct_w1 *= mf_vec; dct_w2 *= mf_vec; dct_w3 *= mf_vec; SRA_4V( dct_w0, dct_w1, dct_w2, dct_w3, 16 ); PCKEV_H2_SH( dct_w1, dct_w0, dct_w3, dct_w2, dct_h0, dct_h1 ); dct0 = zero - dct_h0; dct1 = zero - dct_h1; dct0 = ( v8i16 ) __msa_bmnz_v( ( v16u8 ) dct_h0, ( v16u8 ) dct0, ( v16u8 ) dct0_mask ); dct1 = ( v8i16 ) __msa_bmnz_v( ( v16u8 ) dct_h1, ( v16u8 ) dct1, ( v16u8 ) dct1_mask ); non_zero = HADD_SW_S32( ( v4u32 ) ( dct_h0 + dct_h1 ) ); ST_SH2( dct0, dct1, p_dct, 8 ); return !!non_zero; } static int32_t avc_coeff_last64_msa( int16_t *p_src ) { uint32_t u_res; v8i16 src0, src1, src2, src3, src4, src5, src6, src7; v8i16 tmp_h0, tmp_h1, tmp_h2, tmp_h3, tmp_h4, tmp_h5, tmp_h6, tmp_h7; v16u8 tmp0, tmp1, tmp2, tmp3; v8u16 vec0, vec1, vec2, vec3; v4i32 out0; v16u8 mask = { 1, 2, 4, 8, 16, 32, 64, 128, 1, 2, 4, 8, 16, 32, 64, 128 }; LD_SH8( p_src, 8, src0, src1, src2, src3, src4, src5, src6, src7 ); tmp_h0 = __msa_ceqi_h( src0, 0 ); tmp_h1 = __msa_ceqi_h( src1, 0 ); tmp_h2 = __msa_ceqi_h( src2, 0 ); tmp_h3 = __msa_ceqi_h( src3, 0 ); tmp_h4 = __msa_ceqi_h( src4, 0 ); tmp_h5 = __msa_ceqi_h( src5, 0 ); tmp_h6 = __msa_ceqi_h( src6, 0 ); tmp_h7 = __msa_ceqi_h( src7, 0 ); PCKEV_B4_UB( tmp_h1, tmp_h0, tmp_h3, tmp_h2, tmp_h5, tmp_h4, tmp_h7, tmp_h6, tmp0, tmp1, tmp2, tmp3 ); tmp0 = tmp0 & mask; tmp1 = tmp1 & mask; tmp2 = tmp2 & mask; tmp3 = tmp3 & mask; HADD_UB4_UH( tmp0, tmp1, tmp2, tmp3, vec0, vec1, vec2, vec3 ); PCKEV_B2_UB( vec1, vec0, vec3, vec2, tmp0, tmp1 ); HADD_UB2_UH( tmp0, tmp1, vec0, vec1 ); tmp0 = ( v16u8 ) __msa_pckev_b( ( v16i8 ) vec1, ( v16i8 ) vec0 ); vec0 = __msa_hadd_u_h( tmp0, tmp0 ); tmp0 = ( v16u8 ) __msa_pckev_b( ( v16i8 ) vec0, ( v16i8 ) vec0 ); out0 = ( v4i32 ) __msa_nloc_d( ( v2i64 ) tmp0 ); u_res = __msa_copy_u_w( out0, 0 ); return ( 63 - u_res ); } static int32_t avc_coeff_last16_msa( int16_t *p_src ) { uint32_t u_res; v8i16 src0, src1; v8u16 tmp_h0; v16u8 tmp0; v8i16 out0, out1; v16i8 res0; v16u8 mask = { 1, 2, 4, 8, 16, 32, 64, 128, 1, 2, 4, 8, 16, 32, 64, 128 }; LD_SH2( p_src, 8, src0, src1 ); out0 = __msa_ceqi_h( src0, 0 ); out1 = __msa_ceqi_h( src1, 0 ); tmp0 = ( v16u8 ) __msa_pckev_b( ( v16i8 ) out1, ( v16i8 ) out0 ); tmp0 = tmp0 & mask; tmp_h0 = __msa_hadd_u_h( tmp0, tmp0 ); tmp0 = ( v16u8 ) __msa_pckev_b( ( v16i8 ) tmp_h0, ( v16i8 ) tmp_h0 ); tmp_h0 = __msa_hadd_u_h( tmp0, tmp0 ); tmp0 = ( v16u8 ) __msa_pckev_b( ( v16i8 ) tmp_h0, ( v16i8 ) tmp_h0 ); tmp_h0 = __msa_hadd_u_h( tmp0, tmp0 ); res0 = __msa_pckev_b( ( v16i8 ) tmp_h0, ( v16i8 ) tmp_h0 ); out0 = __msa_nloc_h( ( v8i16 ) res0 ); u_res = __msa_copy_u_h( out0, 0 ); return ( 15 - u_res ); } void x264_dequant_4x4_msa( int16_t *p_dct, int32_t pi_dequant_mf[6][16], int32_t i_qp ) { avc_dequant_4x4_msa( p_dct, pi_dequant_mf, i_qp ); } void x264_dequant_8x8_msa( int16_t *p_dct, int32_t pi_dequant_mf[6][64], int32_t i_qp ) { avc_dequant_8x8_msa( p_dct, pi_dequant_mf, i_qp ); } void x264_dequant_4x4_dc_msa( int16_t *p_dct, int32_t pi_dequant_mf[6][16], int32_t i_qp ) { avc_dequant_4x4_dc_msa( p_dct, pi_dequant_mf, i_qp ); } int32_t x264_quant_4x4_msa( int16_t *p_dct, uint16_t *p_mf, uint16_t *p_bias ) { return avc_quant_4x4_msa( p_dct, p_mf, p_bias ); } int32_t x264_quant_4x4x4_msa( int16_t p_dct[4][16], uint16_t pu_mf[16], uint16_t pu_bias[16] ) { int32_t i_non_zero, i_non_zero_acc = 0; for( int32_t j = 0; j < 4; j++ ) { i_non_zero = x264_quant_4x4_msa( p_dct[j], pu_mf, pu_bias ); i_non_zero_acc |= ( !!i_non_zero ) << j; } return i_non_zero_acc; } int32_t x264_quant_8x8_msa( int16_t *p_dct, uint16_t *p_mf, uint16_t *p_bias ) { return avc_quant_8x8_msa( p_dct, p_mf, p_bias ); } int32_t x264_quant_4x4_dc_msa( int16_t *p_dct, int32_t i_mf, int32_t i_bias ) { return avc_quant_4x4_dc_msa( p_dct, i_mf, i_bias ); } int32_t x264_coeff_last64_msa( int16_t *p_src ) { return avc_coeff_last64_msa( p_src ); } int32_t x264_coeff_last16_msa( int16_t *p_src ) { return avc_coeff_last16_msa( p_src ); } #endif