diff options
| author | Michael Niedermayer <michaelni@gmx.at> | 2005-02-02 22:38:28 +0000 |
|---|---|---|
| committer | Michael Niedermayer <michaelni@gmx.at> | 2005-02-02 22:38:28 +0000 |
| commit | 125d624610b77ea11dae166305c96c2ae6e665a9 (patch) | |
| tree | eaca5eb6a74eb6dc2a62bb124244a0ab0456172b /libavcodec/mpegaudiodec.c | |
| parent | 6e0d8c06c7af61859e8d7bc2351a607d8abeab75 (diff) | |
optimizing imdct12
Originally committed as revision 3929 to svn://svn.ffmpeg.org/ffmpeg/trunk
Diffstat (limited to 'libavcodec/mpegaudiodec.c')
| -rw-r--r-- | libavcodec/mpegaudiodec.c | 182 |
1 files changed, 84 insertions, 98 deletions
diff --git a/libavcodec/mpegaudiodec.c b/libavcodec/mpegaudiodec.c index 8e66315549..c3e9946290 100644 --- a/libavcodec/mpegaudiodec.c +++ b/libavcodec/mpegaudiodec.c @@ -465,7 +465,9 @@ static int decode_init(AVCodecContext * avctx) for(i=0;i<36;i++) { for(j=0; j<4; j++){ double d; - if(j==2) continue; + + if(j==2 && i%3 != 1) + continue; d= sin(M_PI * (i + 0.5) / 36.0); if(j==1){ @@ -478,18 +480,16 @@ static int decode_init(AVCodecContext * avctx) else if(i< 18) d= 1; } //merge last stage of imdct into the window coefficients - if (i/9 == 0) d*= 0.5 / cos(M_PI*(2*( i) +19)/72); - else if(i/9 == 1) d*= 0.5 / cos(M_PI*(2*(17 - i) +19)/72); - else if(i/9 == 2) d*= 0.5 / cos(M_PI*(2*( i) +19)/72); - else d*=-0.5 / cos(M_PI*(2*(17 - i) +19)/72); - mdct_win[j][i] = FIXHR((d / (1<<5))); + 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)); } } - for(i=0;i<12;i++) - mdct_win[2][i] = FIXR(sin(M_PI * (i + 0.5) / 12.0)); - /* NOTE: we do frequency inversion adter the MDCT by changing the sign of the right window coefs */ for(j=0;j<4;j++) { @@ -931,59 +931,63 @@ void ff_mpa_synth_filter(MPA_INT *synth_buf_ptr, int *synth_buf_offset, *synth_buf_offset = offset; } -/* cos(pi*i/24) */ -#define C1 FIXR(0.99144486137381041114) -#define C3 FIXR(0.92387953251128675612) -#define C5 FIXR(0.79335334029123516458) -#define C7 FIXR(0.60876142900872063941) -#define C9 FIXR(0.38268343236508977173) -#define C11 FIXR(0.13052619222005159154) +#define C3 FIXHR(0.86602540378443864676/2) + +/* 0.5 / cos(pi*(2*i+1)/36) */ +static const int icos36[9] = { + FIXR(0.50190991877167369479), + FIXR(0.51763809020504152469), //0 + FIXR(0.55168895948124587824), + FIXR(0.61038729438072803416), + FIXR(0.70710678118654752439), //1 + FIXR(0.87172339781054900991), + FIXR(1.18310079157624925896), + FIXR(1.93185165257813657349), //2 + FIXR(5.73685662283492756461), +}; /* 12 points IMDCT. We compute it "by hand" by factorizing obvious cases. */ static void imdct12(int *out, int *in) { - int tmp; - int64_t in1_3, in1_9, in4_3, in4_9; - - in1_3 = MUL64(in[1], C3); - in1_9 = MUL64(in[1], C9); - in4_3 = MUL64(in[4], C3); - in4_9 = MUL64(in[4], C9); + int in0, in1, in2, in3, in4, in5, t1, t2; + in0= in[0*3]<<5; + in1= (in[1*3] + in[0*3])<<5; + in2= (in[2*3] + in[1*3])<<5; + in3= (in[3*3] + in[2*3])<<5; + in4= (in[4*3] + in[3*3])<<5; + in5= (in[5*3] + in[4*3])<<5; + in5 += in3; + in3 += in1; + + in2= MULH(2*in2, C3); + in3= MULH(2*in3, C3); + + t1 = in0 - in4; + t2 = MULL(in1 - in5, icos36[4]); + + out[ 7]= + out[10]= t1 + t2; + out[ 1]= + out[ 4]= t1 - t2; + + in0 += in4>>1; + in4 = in0 + in2; + in1 += in5>>1; + in5 = MULL(in1 + in3, icos36[1]); + out[ 8]= + out[ 9]= in4 + in5; + out[ 2]= + out[ 3]= in4 - in5; - tmp = FRAC_RND(MUL64(in[0], C7) - in1_3 - MUL64(in[2], C11) + - MUL64(in[3], C1) - in4_9 - MUL64(in[5], C5)); - out[0] = tmp; - out[5] = -tmp; - tmp = FRAC_RND(MUL64(in[0] - in[3], C9) - in1_3 + - MUL64(in[2] + in[5], C3) - in4_9); - out[1] = tmp; - out[4] = -tmp; - tmp = FRAC_RND(MUL64(in[0], C11) - in1_9 + MUL64(in[2], C7) - - MUL64(in[3], C5) + in4_3 - MUL64(in[5], C1)); - out[2] = tmp; - out[3] = -tmp; - tmp = FRAC_RND(MUL64(-in[0], C5) + in1_9 + MUL64(in[2], C1) + - MUL64(in[3], C11) - in4_3 - MUL64(in[5], C7)); - out[6] = tmp; - out[11] = tmp; - tmp = FRAC_RND(MUL64(-in[0] + in[3], C3) - in1_9 + - MUL64(in[2] + in[5], C9) + in4_3); - out[7] = tmp; - out[10] = tmp; - tmp = FRAC_RND(-MUL64(in[0], C1) - in1_3 - MUL64(in[2], C5) - - MUL64(in[3], C7) - in4_9 - MUL64(in[5], C11)); - out[8] = tmp; - out[9] = tmp; + in0 -= in2; + in1 = MULL(in1 - in3, icos36[7]); + out[ 0]= + out[ 5]= in0 - in1; + out[ 6]= + out[11]= in0 + in1; } -#undef C1 -#undef C3 -#undef C5 -#undef C7 -#undef C9 -#undef C11 - /* cos(pi*i/18) */ #define C1 FIXHR(0.98480775301220805936/2) #define C2 FIXHR(0.93969262078590838405/2) @@ -995,18 +999,6 @@ static void imdct12(int *out, int *in) #define C8 FIXHR(0.17364817766693034885/2) -/* 0.5 / cos(pi*(2*i+1)/36) */ -static const int icos36[9] = { - FIXR(0.50190991877167369479), - FIXR(0.51763809020504152469), - FIXR(0.55168895948124587824), - FIXR(0.61038729438072803416), - FIXR(0.70710678118654752439), - FIXR(0.87172339781054900991), - FIXR(1.18310079157624925896), - FIXR(1.93185165257813657349), - FIXR(5.73685662283492756461), -}; /* using Lee like decomposition followed by hand coded 9 points DCT */ static void imdct36(int *out, int *buf, int *in, int *win) { @@ -1092,14 +1084,14 @@ static void imdct36(int *out, int *buf, int *in, int *win) t0 = (s0 + s1) << 5; t1 = (s0 - s1) << 5; - out[(9 + j)*SBLIMIT] = -MULH(t1, win[9 + j]) + buf[9 + j]; + out[(9 + j)*SBLIMIT] = MULH(t1, win[9 + j]) + buf[9 + j]; out[(8 - j)*SBLIMIT] = MULH(t1, win[8 - j]) + buf[8 - j]; buf[9 + j] = MULH(t0, win[18 + 9 + j]); buf[8 - j] = MULH(t0, win[18 + 8 - j]); t0 = (s2 + s3) << 5; t1 = (s2 - s3) << 5; - out[(9 + 8 - j)*SBLIMIT] = -MULH(t1, win[9 + 8 - j]) + buf[9 + 8 - j]; + out[(9 + 8 - j)*SBLIMIT] = MULH(t1, win[9 + 8 - j]) + buf[9 + 8 - j]; out[( j)*SBLIMIT] = MULH(t1, win[ j]) + buf[ j]; buf[9 + 8 - j] = MULH(t0, win[18 + 9 + 8 - j]); buf[ + j] = MULH(t0, win[18 + j]); @@ -1110,7 +1102,7 @@ static void imdct36(int *out, int *buf, int *in, int *win) s1 = MULL(tmp[17], icos36[4]); t0 = (s0 + s1) << 5; t1 = (s0 - s1) << 5; - out[(9 + 4)*SBLIMIT] = -MULH(t1, win[9 + 4]) + buf[9 + 4]; + out[(9 + 4)*SBLIMIT] = MULH(t1, win[9 + 4]) + buf[9 + 4]; out[(8 - 4)*SBLIMIT] = MULH(t1, win[8 - 4]) + buf[8 - 4]; buf[9 + 4] = MULH(t0, win[18 + 9 + 4]); buf[8 - 4] = MULH(t0, win[18 + 8 - 4]); @@ -1991,11 +1983,9 @@ static void compute_imdct(MPADecodeContext *s, int32_t *sb_samples, int32_t *mdct_buf) { - int32_t *ptr, *win, *win1, *buf, *buf2, *out_ptr, *ptr1; - int32_t in[6]; - int32_t out[36]; + int32_t *ptr, *win, *win1, *buf, *out_ptr, *ptr1; int32_t out2[12]; - int i, j, k, mdct_long_end, v, sblimit; + int i, j, mdct_long_end, v, sblimit; /* find last non zero block */ ptr = g->sb_hybrid + 576; @@ -2036,36 +2026,32 @@ static void compute_imdct(MPADecodeContext *s, buf += 18; } for(j=mdct_long_end;j<sblimit;j++) { - for(i=0;i<6;i++) { - out[i] = 0; - out[6 + i] = 0; - out[30+i] = 0; - } /* select frequency inversion */ win = mdct_win[2] + ((4 * 36) & -(j & 1)); - buf2 = out + 6; - for(k=0;k<3;k++) { - /* reorder input for short mdct */ - ptr1 = ptr + k; - for(i=0;i<6;i++) { - in[i] = *ptr1; - ptr1 += 3; - } - imdct12(out2, in); - /* apply 12 point window and do small overlap */ - for(i=0;i<6;i++) { - buf2[i] = MULL(out2[i], win[i]) + buf2[i]; - buf2[i + 6] = MULL(out2[i + 6], win[i + 6]); - } - buf2 += 6; - } - /* overlap */ out_ptr = sb_samples + j; - for(i=0;i<18;i++) { - *out_ptr = out[i] + buf[i]; - buf[i] = out[i + 18]; + + for(i=0; i<6; i++){ + *out_ptr = buf[i]; + out_ptr += SBLIMIT; + } + imdct12(out2, ptr + 0); + for(i=0;i<6;i++) { + *out_ptr = MULH(out2[i], win[i]) + buf[i + 6*1]; + buf[i + 6*2] = MULH(out2[i + 6], win[i + 6]); out_ptr += SBLIMIT; } + imdct12(out2, ptr + 1); + for(i=0;i<6;i++) { + *out_ptr = MULH(out2[i], win[i]) + buf[i + 6*2]; + buf[i + 6*0] = MULH(out2[i + 6], win[i + 6]); + out_ptr += SBLIMIT; + } + imdct12(out2, ptr + 2); + for(i=0;i<6;i++) { + buf[i + 6*0] = MULH(out2[i], win[i]) + buf[i + 6*0]; + buf[i + 6*1] = MULH(out2[i + 6], win[i + 6]); + buf[i + 6*2] = 0; + } ptr += 18; buf += 18; } |