📄 mpegaudiodec.c
字号:
v = FIXR(1.0); } is_table[0][i] = v; is_table[1][6 - i] = v; } /* invalid values */ for(i=7;i<16;i++) is_table[0][i] = is_table[1][i] = 0.0; for(i=0;i<16;i++) { double f; int e, k; for(j=0;j<2;j++) { e = -(j + 1) * ((i + 1) >> 1); f = pow(2.0, e / 4.0); k = i & 1; is_table_lsf[j][k ^ 1][i] = FIXR(f); is_table_lsf[j][k][i] = FIXR(1.0); dprintf(avctx, "is_table_lsf %d %d: %x %x\n", i, j, is_table_lsf[j][0][i], is_table_lsf[j][1][i]); } } for(i=0;i<8;i++) { float ci, cs, ca; ci = ci_table[i]; cs = 1.0 / sqrt(1.0 + ci * ci); ca = cs * ci; csa_table[i][0] = FIXHR(cs/4); csa_table[i][1] = FIXHR(ca/4); csa_table[i][2] = FIXHR(ca/4) + FIXHR(cs/4); csa_table[i][3] = FIXHR(ca/4) - FIXHR(cs/4); csa_table_float[i][0] = cs; csa_table_float[i][1] = ca; csa_table_float[i][2] = ca + cs; csa_table_float[i][3] = ca - cs;// printf("%d %d %d %d\n", FIX(cs), FIX(cs-1), FIX(ca), FIX(cs)-FIX(ca));// av_log(NULL, AV_LOG_DEBUG,"%f %f %f %f\n", cs, ca, ca+cs, ca-cs); } /* compute mdct windows */ for(i=0;i<36;i++) { for(j=0; j<4; j++){ double d; if(j==2 && i%3 != 1) continue; d= sin(M_PI * (i + 0.5) / 36.0); if(j==1){ if (i>=30) d= 0; else if(i>=24) d= sin(M_PI * (i - 18 + 0.5) / 12.0); else if(i>=18) d= 1; }else if(j==3){ if (i< 6) d= 0; else if(i< 12) d= sin(M_PI * (i - 6 + 0.5) / 12.0); else if(i< 18) d= 1; } //merge last stage of imdct into the window coefficients d*= 0.5 / cos(M_PI*(2*i + 19)/72); if(j==2) mdct_win[j][i/3] = FIXHR((d / (1<<5))); else mdct_win[j][i ] = FIXHR((d / (1<<5)));// av_log(NULL, AV_LOG_DEBUG, "%2d %d %f\n", i,j,d / (1<<5)); } } /* NOTE: we do frequency inversion adter the MDCT by changing the sign of the right window coefs */ for(j=0;j<4;j++) { for(i=0;i<36;i+=2) { mdct_win[j + 4][i] = mdct_win[j][i]; mdct_win[j + 4][i + 1] = -mdct_win[j][i + 1]; } }#if defined(DEBUG) for(j=0;j<8;j++) { av_log(avctx, AV_LOG_DEBUG, "win%d=\n", j); for(i=0;i<36;i++) av_log(avctx, AV_LOG_DEBUG, "%f, ", (double)mdct_win[j][i] / FRAC_ONE); av_log(avctx, AV_LOG_DEBUG, "\n"); }#endif init = 1; }#ifdef DEBUG s->frame_count = 0;#endif if (avctx->codec_id == CODEC_ID_MP3ADU) s->adu_mode = 1; return 0;}/* tab[i][j] = 1.0 / (2.0 * cos(pi*(2*k+1) / 2^(6 - j))) *//* cos(i*pi/64) */#define COS0_0 FIXHR(0.50060299823519630134/2)#define COS0_1 FIXHR(0.50547095989754365998/2)#define COS0_2 FIXHR(0.51544730992262454697/2)#define COS0_3 FIXHR(0.53104259108978417447/2)#define COS0_4 FIXHR(0.55310389603444452782/2)#define COS0_5 FIXHR(0.58293496820613387367/2)#define COS0_6 FIXHR(0.62250412303566481615/2)#define COS0_7 FIXHR(0.67480834145500574602/2)#define COS0_8 FIXHR(0.74453627100229844977/2)#define COS0_9 FIXHR(0.83934964541552703873/2)#define COS0_10 FIXHR(0.97256823786196069369/2)#define COS0_11 FIXHR(1.16943993343288495515/4)#define COS0_12 FIXHR(1.48416461631416627724/4)#define COS0_13 FIXHR(2.05778100995341155085/8)#define COS0_14 FIXHR(3.40760841846871878570/8)#define COS0_15 FIXHR(10.19000812354805681150/32)#define COS1_0 FIXHR(0.50241928618815570551/2)#define COS1_1 FIXHR(0.52249861493968888062/2)#define COS1_2 FIXHR(0.56694403481635770368/2)#define COS1_3 FIXHR(0.64682178335999012954/2)#define COS1_4 FIXHR(0.78815462345125022473/2)#define COS1_5 FIXHR(1.06067768599034747134/4)#define COS1_6 FIXHR(1.72244709823833392782/4)#define COS1_7 FIXHR(5.10114861868916385802/16)#define COS2_0 FIXHR(0.50979557910415916894/2)#define COS2_1 FIXHR(0.60134488693504528054/2)#define COS2_2 FIXHR(0.89997622313641570463/2)#define COS2_3 FIXHR(2.56291544774150617881/8)#define COS3_0 FIXHR(0.54119610014619698439/2)#define COS3_1 FIXHR(1.30656296487637652785/4)#define COS4_0 FIXHR(0.70710678118654752439/2)/* butterfly operator */#define BF(a, b, c, s)\{\ tmp0 = tab[a] + tab[b];\ tmp1 = tab[a] - tab[b];\ tab[a] = tmp0;\ tab[b] = MULH(tmp1<<(s), c);\}#define BF1(a, b, c, d)\{\ BF(a, b, COS4_0, 1);\ BF(c, d,-COS4_0, 1);\ tab[c] += tab[d];\}#define BF2(a, b, c, d)\{\ BF(a, b, COS4_0, 1);\ BF(c, d,-COS4_0, 1);\ tab[c] += tab[d];\ tab[a] += tab[c];\ tab[c] += tab[b];\ tab[b] += tab[d];\}#define ADD(a, b) tab[a] += tab[b]/* DCT32 without 1/sqrt(2) coef zero scaling. */static void dct32(int32_t *out, int32_t *tab){ int tmp0, tmp1; /* pass 1 */ BF( 0, 31, COS0_0 , 1); BF(15, 16, COS0_15, 5); /* pass 2 */ BF( 0, 15, COS1_0 , 1); BF(16, 31,-COS1_0 , 1); /* pass 1 */ BF( 7, 24, COS0_7 , 1); BF( 8, 23, COS0_8 , 1); /* pass 2 */ BF( 7, 8, COS1_7 , 4); BF(23, 24,-COS1_7 , 4); /* pass 3 */ BF( 0, 7, COS2_0 , 1); BF( 8, 15,-COS2_0 , 1); BF(16, 23, COS2_0 , 1); BF(24, 31,-COS2_0 , 1); /* pass 1 */ BF( 3, 28, COS0_3 , 1); BF(12, 19, COS0_12, 2); /* pass 2 */ BF( 3, 12, COS1_3 , 1); BF(19, 28,-COS1_3 , 1); /* pass 1 */ BF( 4, 27, COS0_4 , 1); BF(11, 20, COS0_11, 2); /* pass 2 */ BF( 4, 11, COS1_4 , 1); BF(20, 27,-COS1_4 , 1); /* pass 3 */ BF( 3, 4, COS2_3 , 3); BF(11, 12,-COS2_3 , 3); BF(19, 20, COS2_3 , 3); BF(27, 28,-COS2_3 , 3); /* pass 4 */ BF( 0, 3, COS3_0 , 1); BF( 4, 7,-COS3_0 , 1); BF( 8, 11, COS3_0 , 1); BF(12, 15,-COS3_0 , 1); BF(16, 19, COS3_0 , 1); BF(20, 23,-COS3_0 , 1); BF(24, 27, COS3_0 , 1); BF(28, 31,-COS3_0 , 1); /* pass 1 */ BF( 1, 30, COS0_1 , 1); BF(14, 17, COS0_14, 3); /* pass 2 */ BF( 1, 14, COS1_1 , 1); BF(17, 30,-COS1_1 , 1); /* pass 1 */ BF( 6, 25, COS0_6 , 1); BF( 9, 22, COS0_9 , 1); /* pass 2 */ BF( 6, 9, COS1_6 , 2); BF(22, 25,-COS1_6 , 2); /* pass 3 */ BF( 1, 6, COS2_1 , 1); BF( 9, 14,-COS2_1 , 1); BF(17, 22, COS2_1 , 1); BF(25, 30,-COS2_1 , 1); /* pass 1 */ BF( 2, 29, COS0_2 , 1); BF(13, 18, COS0_13, 3); /* pass 2 */ BF( 2, 13, COS1_2 , 1); BF(18, 29,-COS1_2 , 1); /* pass 1 */ BF( 5, 26, COS0_5 , 1); BF(10, 21, COS0_10, 1); /* pass 2 */ BF( 5, 10, COS1_5 , 2); BF(21, 26,-COS1_5 , 2); /* pass 3 */ BF( 2, 5, COS2_2 , 1); BF(10, 13,-COS2_2 , 1); BF(18, 21, COS2_2 , 1); BF(26, 29,-COS2_2 , 1); /* pass 4 */ BF( 1, 2, COS3_1 , 2); BF( 5, 6,-COS3_1 , 2); BF( 9, 10, COS3_1 , 2); BF(13, 14,-COS3_1 , 2); BF(17, 18, COS3_1 , 2); BF(21, 22,-COS3_1 , 2); BF(25, 26, COS3_1 , 2); BF(29, 30,-COS3_1 , 2); /* pass 5 */ BF1( 0, 1, 2, 3); BF2( 4, 5, 6, 7); BF1( 8, 9, 10, 11); BF2(12, 13, 14, 15); BF1(16, 17, 18, 19); BF2(20, 21, 22, 23); BF1(24, 25, 26, 27); BF2(28, 29, 30, 31); /* pass 6 */ ADD( 8, 12); ADD(12, 10); ADD(10, 14); ADD(14, 9); ADD( 9, 13); ADD(13, 11); ADD(11, 15); out[ 0] = tab[0]; out[16] = tab[1]; out[ 8] = tab[2]; out[24] = tab[3]; out[ 4] = tab[4]; out[20] = tab[5]; out[12] = tab[6]; out[28] = tab[7]; out[ 2] = tab[8]; out[18] = tab[9]; out[10] = tab[10]; out[26] = tab[11]; out[ 6] = tab[12]; out[22] = tab[13]; out[14] = tab[14]; out[30] = tab[15]; ADD(24, 28); ADD(28, 26); ADD(26, 30); ADD(30, 25); ADD(25, 29); ADD(29, 27); ADD(27, 31); out[ 1] = tab[16] + tab[24]; out[17] = tab[17] + tab[25]; out[ 9] = tab[18] + tab[26]; out[25] = tab[19] + tab[27]; out[ 5] = tab[20] + tab[28]; out[21] = tab[21] + tab[29]; out[13] = tab[22] + tab[30]; out[29] = tab[23] + tab[31]; out[ 3] = tab[24] + tab[20]; out[19] = tab[25] + tab[21]; out[11] = tab[26] + tab[22]; out[27] = tab[27] + tab[23]; out[ 7] = tab[28] + tab[18]; out[23] = tab[29] + tab[19]; out[15] = tab[30] + tab[17]; out[31] = tab[31];}#if FRAC_BITS <= 15static inline int round_sample(int *sum){ int sum1; sum1 = (*sum) >> OUT_SHIFT; *sum &= (1<<OUT_SHIFT)-1; if (sum1 < OUT_MIN) sum1 = OUT_MIN; else if (sum1 > OUT_MAX) sum1 = OUT_MAX; return sum1;}/* signed 16x16 -> 32 multiply add accumulate */#define MACS(rt, ra, rb) MAC16(rt, ra, rb)/* signed 16x16 -> 32 multiply */#define MULS(ra, rb) MUL16(ra, rb)#elsestatic inline int round_sample(int64_t *sum){ int sum1; sum1 = (int)((*sum) >> OUT_SHIFT); *sum &= (1<<OUT_SHIFT)-1; if (sum1 < OUT_MIN) sum1 = OUT_MIN; else if (sum1 > OUT_MAX) sum1 = OUT_MAX; return sum1;}# define MULS(ra, rb) MUL64(ra, rb)#endif#define SUM8(sum, op, w, p) \{ \ sum op MULS((w)[0 * 64], p[0 * 64]);\ sum op MULS((w)[1 * 64], p[1 * 64]);\ sum op MULS((w)[2 * 64], p[2 * 64]);\ sum op MULS((w)[3 * 64], p[3 * 64]);\ sum op MULS((w)[4 * 64], p[4 * 64]);\ sum op MULS((w)[5 * 64], p[5 * 64]);\ sum op MULS((w)[6 * 64], p[6 * 64]);\ sum op MULS((w)[7 * 64], p[7 * 64]);\}#define SUM8P2(sum1, op1, sum2, op2, w1, w2, p) \{ \ int tmp;\ tmp = p[0 * 64];\ sum1 op1 MULS((w1)[0 * 64], tmp);\ sum2 op2 MULS((w2)[0 * 64], tmp);\ tmp = p[1 * 64];\ sum1 op1 MULS((w1)[1 * 64], tmp);\ sum2 op2 MULS((w2)[1 * 64], tmp);\ tmp = p[2 * 64];\ sum1 op1 MULS((w1)[2 * 64], tmp);\ sum2 op2 MULS((w2)[2 * 64], tmp);\ tmp = p[3 * 64];\ sum1 op1 MULS((w1)[3 * 64], tmp);\ sum2 op2 MULS((w2)[3 * 64], tmp);\ tmp = p[4 * 64];\ sum1 op1 MULS((w1)[4 * 64], tmp);\ sum2 op2 MULS((w2)[4 * 64], tmp);\ tmp = p[5 * 64];\ sum1 op1 MULS((w1)[5 * 64], tmp);\ sum2 op2 MULS((w2)[5 * 64], tmp);\ tmp = p[6 * 64];\ sum1 op1 MULS((w1)[6 * 64], tmp);\ sum2 op2 MULS((w2)[6 * 64], tmp);\ tmp = p[7 * 64];\ sum1 op1 MULS((w1)[7 * 64], tmp);\ sum2 op2 MULS((w2)[7 * 64], tmp);\}void ff_mpa_synth_init(MPA_INT *window){ int i; /* max = 18760, max sum over all 16 coefs : 44736 */ for(i=0;i<257;i++) { int v; v = ff_mpa_enwindow[i];#if WFRAC_BITS < 16 v = (v + (1 << (16 - WFRAC_BITS - 1))) >> (16 - WFRAC_BITS);#endif window[i] = v; if ((i & 63) != 0) v = -v; if (i != 0) window[512 - i] = v; }}/* 32 sub band synthesis filter. Input: 32 sub band samples, Output: 32 samples. *//* XXX: optimize by avoiding ring buffer usage */void ff_mpa_synth_filter(MPA_INT *synth_buf_ptr, int *synth_buf_offset, MPA_INT *window, int *dither_state, OUT_INT *samples, int incr, int32_t sb_samples[SBLIMIT]){ int32_t tmp[32]; register MPA_INT *synth_buf;⌨️ 快捷键说明
复制代码
Ctrl + C
搜索代码
Ctrl + F
全屏模式
F11
切换主题
Ctrl + Shift + D
显示快捷键
?
增大字号
Ctrl + =
减小字号
Ctrl + -