FFmpeg4/libavcodec/x86/simple_idct10_template.asm

370 lines
11 KiB
NASM

;******************************************************************************
;* x86-SIMD-optimized IDCT for prores
;* this is identical to "simple" IDCT written by Michael Niedermayer
;* except for the clip range
;*
;* Copyright (c) 2011 Ronald S. Bultje <rsbultje@gmail.com>
;*
;* This file is part of FFmpeg.
;*
;* FFmpeg is free software; you can redistribute it and/or
;* modify it under the terms of the GNU Lesser General Public
;* License as published by the Free Software Foundation; either
;* version 2.1 of the License, or (at your option) any later version.
;*
;* FFmpeg 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
;* Lesser General Public License for more details.
;*
;* You should have received a copy of the GNU Lesser General Public
;* License along with FFmpeg; if not, write to the Free Software
;* 51, Inc., Foundation Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
;******************************************************************************
; add SECTION_RODATA and proper include before including this file!
%if ARCH_X86_64
%macro define_constants 1
%undef w4_plus_w2
%undef w4_min_w2
%undef w4_plus_w6
%undef w4_min_w6
%undef w1_plus_w3
%undef w3_min_w1
%undef w7_plus_w3
%undef w3_min_w7
%define w4_plus_w2 w4_plus_w2%1
%define w4_min_w2 w4_min_w2%1
%define w4_plus_w6 w4_plus_w6%1
%define w4_min_w6 w4_min_w6%1
%define w1_plus_w3 w1_plus_w3%1
%define w3_min_w1 w3_min_w1%1
%define w7_plus_w3 w7_plus_w3%1
%define w3_min_w7 w3_min_w7%1
%endmacro
; interleave data while maintaining source
; %1=type, %2=dstlo, %3=dsthi, %4=src, %5=interleave
%macro SBUTTERFLY3 5
punpckl%1 m%2, m%4, m%5
punpckh%1 m%3, m%4, m%5
%endmacro
; %1/%2=src1/dst1, %3/%4=dst2, %5/%6=src2, %7=shift
; action: %3/%4 = %1/%2 - %5/%6; %1/%2 += %5/%6
; %1/%2/%3/%4 >>= %7; dword -> word (in %1/%3)
%macro SUMSUB_SHPK 7
psubd %3, %1, %5 ; { a0 - b0 }[0-3]
psubd %4, %2, %6 ; { a0 - b0 }[4-7]
paddd %1, %5 ; { a0 + b0 }[0-3]
paddd %2, %6 ; { a0 + b0 }[4-7]
psrad %1, %7
psrad %2, %7
psrad %3, %7
psrad %4, %7
packssdw %1, %2 ; row[0]
packssdw %3, %4 ; row[7]
%endmacro
; %1 = initial bias ("" if nop)
; %2 = number of bits to shift at the end
; %3 = qmat (for prores)
%macro IDCT_1D 2-3
; a0 = (W4 * row[0]) + (1 << (15 - 1));
; a1 = a0;
; a2 = a0;
; a3 = a0;
; a0 += W2 * row[2];
; a1 += W6 * row[2];
; a2 -= W6 * row[2];
; a3 -= W2 * row[2];
%ifstr %1
mova m15, [pd_round_ %+ %2]
%else
paddw m10, [%1]
%endif
SBUTTERFLY3 wd, 0, 1, 10, 8 ; { row[0], row[2] }[0-3]/[4-7]
pmaddwd m2, m0, [w4_plus_w6]
pmaddwd m3, m1, [w4_plus_w6]
pmaddwd m4, m0, [w4_min_w6]
pmaddwd m5, m1, [w4_min_w6]
pmaddwd m6, m0, [w4_min_w2]
pmaddwd m7, m1, [w4_min_w2]
pmaddwd m0, [w4_plus_w2]
pmaddwd m1, [w4_plus_w2]
%ifstr %1
; Adding 1<<(%2-1) for >=15 bits values
paddd m2, m15
paddd m3, m15
paddd m4, m15
paddd m5, m15
paddd m6, m15
paddd m7, m15
paddd m0, m15
paddd m1, m15
%endif
; a0: -1*row[0]-1*row[2]
; a1: -1*row[0]
; a2: -1*row[0]
; a3: -1*row[0]+1*row[2]
; a0 += W4*row[4] + W6*row[6]; i.e. -1*row[4]
; a1 -= W4*row[4] + W2*row[6]; i.e. -1*row[4]-1*row[6]
; a2 -= W4*row[4] - W2*row[6]; i.e. -1*row[4]+1*row[6]
; a3 += W4*row[4] - W6*row[6]; i.e. -1*row[4]
SBUTTERFLY3 wd, 8, 9, 13, 12 ; { row[4], row[6] }[0-3]/[4-7]
pmaddwd m10, m8, [w4_plus_w6]
pmaddwd m11, m9, [w4_plus_w6]
paddd m0, m10 ; a0[0-3]
paddd m1, m11 ; a0[4-7]
pmaddwd m10, m8, [w4_min_w6]
pmaddwd m11, m9, [w4_min_w6]
paddd m6, m10 ; a3[0-3]
paddd m7, m11 ; a3[4-7]
pmaddwd m10, m8, [w4_min_w2]
pmaddwd m11, m9, [w4_min_w2]
pmaddwd m8, [w4_plus_w2]
pmaddwd m9, [w4_plus_w2]
psubd m4, m10 ; a2[0-3] intermediate
psubd m5, m11 ; a2[4-7] intermediate
psubd m2, m8 ; a1[0-3] intermediate
psubd m3, m9 ; a1[4-7] intermediate
; load/store
mova [blockq+ 0], m0
mova [blockq+ 32], m2
mova [blockq+ 64], m4
mova [blockq+ 96], m6
mova m10,[blockq+ 16] ; { row[1] }[0-7]
mova m8, [blockq+ 48] ; { row[3] }[0-7]
mova m13,[blockq+ 80] ; { row[5] }[0-7]
mova m14,[blockq+112] ; { row[7] }[0-7]
mova [blockq+ 16], m1
mova [blockq+ 48], m3
mova [blockq+ 80], m5
mova [blockq+112], m7
%if %0 == 3
pmullw m10,[%3+ 16]
pmullw m8, [%3+ 48]
pmullw m13,[%3+ 80]
pmullw m14,[%3+112]
%endif
; b0 = MUL(W1, row[1]);
; MAC(b0, W3, row[3]);
; b1 = MUL(W3, row[1]);
; MAC(b1, -W7, row[3]);
; b2 = MUL(W5, row[1]);
; MAC(b2, -W1, row[3]);
; b3 = MUL(W7, row[1]);
; MAC(b3, -W5, row[3]);
SBUTTERFLY3 wd, 0, 1, 10, 8 ; { row[1], row[3] }[0-3]/[4-7]
pmaddwd m2, m0, [w3_min_w7]
pmaddwd m3, m1, [w3_min_w7]
pmaddwd m4, m0, [w5_min_w1]
pmaddwd m5, m1, [w5_min_w1]
pmaddwd m6, m0, [w7_min_w5]
pmaddwd m7, m1, [w7_min_w5]
pmaddwd m0, [w1_plus_w3]
pmaddwd m1, [w1_plus_w3]
; b0: +1*row[1]+2*row[3]
; b1: +2*row[1]-1*row[3]
; b2: -1*row[1]-1*row[3]
; b3: +1*row[1]+1*row[3]
; MAC(b0, W5, row[5]);
; MAC(b0, W7, row[7]);
; MAC(b1, -W1, row[5]);
; MAC(b1, -W5, row[7]);
; MAC(b2, W7, row[5]);
; MAC(b2, W3, row[7]);
; MAC(b3, W3, row[5]);
; MAC(b3, -W1, row[7]);
SBUTTERFLY3 wd, 8, 9, 13, 14 ; { row[5], row[7] }[0-3]/[4-7]
; b0: -1*row[5]+1*row[7]
; b1: -1*row[5]+1*row[7]
; b2: +1*row[5]+2*row[7]
; b3: +2*row[5]-1*row[7]
pmaddwd m10, m8, [w1_plus_w5]
pmaddwd m11, m9, [w1_plus_w5]
pmaddwd m12, m8, [w5_plus_w7]
pmaddwd m13, m9, [w5_plus_w7]
psubd m2, m10 ; b1[0-3]
psubd m3, m11 ; b1[4-7]
paddd m0, m12 ; b0[0-3]
paddd m1, m13 ; b0[4-7]
pmaddwd m12, m8, [w7_plus_w3]
pmaddwd m13, m9, [w7_plus_w3]
pmaddwd m8, [w3_min_w1]
pmaddwd m9, [w3_min_w1]
paddd m4, m12 ; b2[0-3]
paddd m5, m13 ; b2[4-7]
paddd m6, m8 ; b3[0-3]
paddd m7, m9 ; b3[4-7]
; row[0] = (a0 + b0) >> 15;
; row[7] = (a0 - b0) >> 15;
; row[1] = (a1 + b1) >> 15;
; row[6] = (a1 - b1) >> 15;
; row[2] = (a2 + b2) >> 15;
; row[5] = (a2 - b2) >> 15;
; row[3] = (a3 + b3) >> 15;
; row[4] = (a3 - b3) >> 15;
mova m8, [blockq+ 0] ; a0[0-3]
mova m9, [blockq+16] ; a0[4-7]
SUMSUB_SHPK m8, m9, m10, m11, m0, m1, %2
mova m0, [blockq+32] ; a1[0-3]
mova m1, [blockq+48] ; a1[4-7]
SUMSUB_SHPK m0, m1, m9, m11, m2, m3, %2
mova m1, [blockq+64] ; a2[0-3]
mova m2, [blockq+80] ; a2[4-7]
SUMSUB_SHPK m1, m2, m11, m3, m4, m5, %2
mova m2, [blockq+96] ; a3[0-3]
mova m3, [blockq+112] ; a3[4-7]
SUMSUB_SHPK m2, m3, m4, m5, m6, m7, %2
%endmacro
; void ff_prores_idct_put_10_<opt>(uint8_t *pixels, ptrdiff_t stride,
; int16_t *block, const int16_t *qmat);
; %1 = row shift
; %2 = row bias macro
; %3 = column shift
; %4 = column bias macro
; %5 = final action (nothing, "store", "put", "add")
; %6 = min pixel value
; %7 = max pixel value
; %8 = qmat (for prores)
%macro IDCT_FN 4-8
; for (i = 0; i < 8; i++)
; idctRowCondDC(block + i*8);
mova m10,[blockq+ 0] ; { row[0] }[0-7]
mova m8, [blockq+32] ; { row[2] }[0-7]
mova m13,[blockq+64] ; { row[4] }[0-7]
mova m12,[blockq+96] ; { row[6] }[0-7]
%if %0 == 8
pmullw m10,[%8+ 0]
pmullw m8, [%8+32]
pmullw m13,[%8+64]
pmullw m12,[%8+96]
IDCT_1D %1, %2, %8
%elif %2 == 11
; This copies the DC-only shortcut. When there is only a DC coefficient the
; C shifts the value and splats it to all coeffs rather than multiplying and
; doing the full IDCT. This causes a difference on 8-bit because the
; coefficient is 16383 rather than 16384 (which you can get with shifting).
por m1, m8, m13
por m1, m12
por m1, [blockq+ 16] ; { row[1] }[0-7]
por m1, [blockq+ 48] ; { row[3] }[0-7]
por m1, [blockq+ 80] ; { row[5] }[0-7]
por m1, [blockq+112] ; { row[7] }[0-7]
pxor m2, m2
pcmpeqw m1, m2
psllw m2, m10, 3
pand m2, m1
pcmpeqb m3, m3
pxor m1, m3
mova [rsp], m1
mova [rsp+16], m2
IDCT_1D %1, %2
mova m5, [rsp]
mova m6, [rsp+16]
pand m8, m5
por m8, m6
pand m0, m5
por m0, m6
pand m1, m5
por m1, m6
pand m2, m5
por m2, m6
pand m4, m5
por m4, m6
pand m11, m5
por m11, m6
pand m9, m5
por m9, m6
pand m10, m5
por m10, m6
%else
IDCT_1D %1, %2
%endif
; transpose for second part of IDCT
TRANSPOSE8x8W 8, 0, 1, 2, 4, 11, 9, 10, 3
mova [blockq+ 16], m0
mova [blockq+ 48], m2
mova [blockq+ 80], m11
mova [blockq+112], m10
SWAP 8, 10
SWAP 1, 8
SWAP 4, 13
SWAP 9, 12
; for (i = 0; i < 8; i++)
; idctSparseColAdd(dest + i, line_size, block + i);
IDCT_1D %3, %4
; clip/store
%if %0 >= 5
%ifidn %5,"store"
; No clamping, means pure idct
mova [blockq+ 0], m8
mova [blockq+ 16], m0
mova [blockq+ 32], m1
mova [blockq+ 48], m2
mova [blockq+ 64], m4
mova [blockq+ 80], m11
mova [blockq+ 96], m9
mova [blockq+112], m10
%elifidn %5,"put"
%ifidn %6, 0
pxor m3, m3
%else
mova m3, [%6]
%endif ; ifidn %6, 0
mova m5, [%7]
pmaxsw m8, m3
pmaxsw m0, m3
pmaxsw m1, m3
pmaxsw m2, m3
pmaxsw m4, m3
pmaxsw m11, m3
pmaxsw m9, m3
pmaxsw m10, m3
pminsw m8, m5
pminsw m0, m5
pminsw m1, m5
pminsw m2, m5
pminsw m4, m5
pminsw m11, m5
pminsw m9, m5
pminsw m10, m5
lea r2, [r1*3]
mova [r0 ], m8
mova [r0+r1 ], m0
mova [r0+r1*2], m1
mova [r0+r2 ], m2
lea r0, [r0+r1*4]
mova [r0 ], m4
mova [r0+r1 ], m11
mova [r0+r1*2], m9
mova [r0+r2 ], m10
%endif ; %5 action
%endif; if %0 >= 5
%endmacro
%endif