falkTX
/
FFmpeg
mirror of https://github.com/falkTX/FFmpeg.git
1
0
Fork 0
Code Issues 0 Releases 338 Wiki Activity
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
80240 Commits
32 Branches
283MB
Tree: 82dbfccaf0
Branches Tags
${ item.name }
Create branch ${ searchTerm }
from '82dbfccaf0'
${ noResults }
FFmpeg/libavcodec/x86/aacpsdsp.asm

206 lines
5.3KB
Raw Blame History 

  1. ;******************************************************************************

  2. ;* SIMD optimized MPEG-4 Parametric Stereo decoding functions

  3. ;*

  4. ;* Copyright (C) 2015 James Almer

  5. ;*

  6. ;* This file is part of FFmpeg.

  7. ;*

  8. ;* FFmpeg is free software; you can redistribute it and/or

  9. ;* modify it under the terms of the GNU Lesser General Public

  10. ;* License as published by the Free Software Foundation; either

  11. ;* version 2.1 of the License, or (at your option) any later version.

  12. ;*

  13. ;* FFmpeg is distributed in the hope that it will be useful,

  14. ;* but WITHOUT ANY WARRANTY; without even the implied warranty of

  15. ;* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU

  16. ;* Lesser General Public License for more details.

  17. ;*

  18. ;* You should have received a copy of the GNU Lesser General Public

  19. ;* License along with FFmpeg; if not, write to the Free Software

  20. ;* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA

  21. ;******************************************************************************

  22. 

  23. %include "libavutil/x86/x86util.asm"

  24. 

  25. SECTION_RODATA

  26. 

  27. ps_p1m1p1m1: dd 0, 0x80000000, 0, 0x80000000

  28. 

  29. SECTION .text

  30. 

  31. ;*************************************************************************

  32. ;void ff_ps_add_squares_<opt>(float *dst, const float (*src)[2], int n);

  33. ;*************************************************************************

  34. %macro PS_ADD_SQUARES 1

  35. cglobal ps_add_squares, 3, 3, %1, dst, src, n

  36. .loop:

  37.     movaps m0, [srcq]

  38.     movaps m1, [srcq+mmsize]

  39.     mulps  m0, m0

  40.     mulps  m1, m1

  41.     HADDPS m0, m1, m2

  42.     addps  m0, [dstq]

  43.     movaps [dstq], m0

  44.     add  dstq, mmsize

  45.     add  srcq, mmsize*2

  46.     sub    nd, mmsize/4

  47.     jg .loop

  48.     REP_RET

  49. %endmacro

  50. 

  51. INIT_XMM sse

  52. PS_ADD_SQUARES 2

  53. INIT_XMM sse3

  54. PS_ADD_SQUARES 3

  55. 

  56. ;*******************************************************************

  57. ;void ff_ps_mul_pair_single_sse(float (*dst)[2], float (*src0)[2],

  58. ;                                   float *src1, int n);

  59. ;*******************************************************************

  60. INIT_XMM sse

  61. cglobal ps_mul_pair_single, 4, 5, 4, dst, src1, src2, n

  62.     xor r4q, r4q

  63. 

  64. .loop:

  65.     movu     m0, [src1q+r4q]

  66.     movu     m1, [src1q+r4q+mmsize]

  67.     mova     m2, [src2q]

  68.     mova     m3, m2

  69.     unpcklps m2, m2

  70.     unpckhps m3, m3

  71.     mulps    m0, m2

  72.     mulps    m1, m3

  73.     mova [dstq+r4q], m0

  74.     mova [dstq+r4q+mmsize], m1

  75.     add   src2q, mmsize

  76.     add     r4q, mmsize*2

  77.     sub      nd, mmsize/4

  78.     jg .loop

  79.     REP_RET

  80. 

  81. ;***********************************************************************

  82. ;void ff_ps_stereo_interpolate_sse3(float (*l)[2], float (*r)[2],

  83. ;                                   float h[2][4], float h_step[2][4],

  84. ;                                   int len);

  85. ;***********************************************************************

  86. INIT_XMM sse3

  87. cglobal ps_stereo_interpolate, 5, 5, 6, l, r, h, h_step, n

  88.     movaps   m0, [hq]

  89.     movaps   m1, [h_stepq]

  90.     cmp      nd, 0

  91.     jle .ret

  92.     shl      nd, 3

  93.     add      lq, nq

  94.     add      rq, nq

  95.     neg      nq

  96. 

  97. align 16

  98. .loop:

  99.     addps    m0, m1

  100.     movddup  m2, [lq+nq]

  101.     movddup  m3, [rq+nq]

  102.     movaps   m4, m0

  103.     movaps   m5, m0

  104.     unpcklps m4, m4

  105.     unpckhps m5, m5

  106.     mulps    m2, m4

  107.     mulps    m3, m5

  108.     addps    m2, m3

  109.     movsd  [lq+nq], m2

  110.     movhps [rq+nq], m2

  111.     add      nq, 8

  112.     jl .loop

  113. .ret:

  114.     REP_RET

  115. 

  116. ;*******************************************************************

  117. ;void ff_ps_hybrid_analysis_<opt>(float (*out)[2], float (*in)[2],

  118. ;                                 const float (*filter)[8][2],

  119. ;                                 int stride, int n);

  120. ;*******************************************************************

  121. %macro PS_HYBRID_ANALYSIS_LOOP 3

  122.     movu     %1, [inq+mmsize*%3]

  123.     movu     m1, [inq+mmsize*(5-%3)+8]

  124. %if cpuflag(sse3)

  125.     pshufd   %2, %1, q2301

  126.     pshufd   m4, m1, q0123

  127.     pshufd   m1, m1, q1032

  128.     pshufd   m2, [filterq+nq+mmsize*%3], q2301

  129.     addsubps %2, m4

  130.     addsubps %1, m1

  131. %else

  132.     mova     m2, [filterq+nq+mmsize*%3]

  133.     mova     %2, %1

  134.     mova     m4, m1

  135.     shufps   %2, %2, q2301

  136.     shufps   m4, m4, q0123

  137.     shufps   m1, m1, q1032

  138.     shufps   m2, m2, q2301

  139.     xorps    m4, m7

  140.     xorps    m1, m7

  141.     subps    %2, m4

  142.     subps    %1, m1

  143. %endif

  144.     mulps    %2, m2

  145.     mulps    %1, m2

  146. %if %3

  147.     addps    m3, %2

  148.     addps    m0, %1

  149. %endif

  150. %endmacro

  151. 

  152. %macro PS_HYBRID_ANALYSIS 0

  153. cglobal ps_hybrid_analysis, 5, 5, 8, out, in, filter, stride, n

  154. %if cpuflag(sse3)

  155. %define MOVH movsd

  156. %else

  157. %define MOVH movlps

  158. %endif

  159.     shl strided, 3

  160.     shl nd, 6

  161.     add filterq, nq

  162.     neg nq

  163.     mova m7, [ps_p1m1p1m1]

  164. 

  165. align 16

  166. .loop:

  167.     PS_HYBRID_ANALYSIS_LOOP m0, m3, 0

  168.     PS_HYBRID_ANALYSIS_LOOP m5, m6, 1

  169.     PS_HYBRID_ANALYSIS_LOOP m5, m6, 2

  170. 

  171. %if cpuflag(sse3)

  172.     pshufd   m3, m3, q2301

  173.     xorps    m0, m7

  174.     hsubps   m3, m0

  175.     pshufd   m1, m3, q0020

  176.     pshufd   m3, m3, q0031

  177.     addps    m1, m3

  178.     movsd    m2, [inq+6*8]

  179. %else

  180.     mova     m1, m3

  181.     mova     m2, m0

  182.     shufps   m1, m1, q2301

  183.     shufps   m2, m2, q2301

  184.     subps    m1, m3

  185.     addps    m2, m0

  186.     unpcklps m3, m1, m2

  187.     unpckhps m1, m2

  188.     addps    m1, m3

  189.     movu     m2, [inq+6*8] ; faster than movlps and no risk of overread

  190. %endif

  191.     movss    m3, [filterq+nq+8*6]

  192.     SPLATD   m3

  193.     mulps    m2, m3

  194.     addps    m1, m2

  195.     MOVH [outq], m1

  196.     add    outq, strideq

  197.     add      nq, 64

  198.     jl .loop

  199.     REP_RET

  200. %endmacro

  201. 

  202. INIT_XMM sse

  203. PS_HYBRID_ANALYSIS

  204. INIT_XMM sse3

  205. PS_HYBRID_ANALYSIS