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|
;******************************************************************************
;* MMX/SSE2-optimized functions for the VP3 decoder
;* Copyright (c) 2007 Aurelien Jacobs <aurel@gnuage.org>
;*
;* This file is part of Libav.
;*
;* Libav 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.
;*
;* Libav 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 Libav; if not, write to the Free Software
;* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
;******************************************************************************
%include "x86inc.asm"
%include "x86util.asm"
; MMX-optimized functions cribbed from the original VP3 source code.
SECTION_RODATA
vp3_idct_data: times 8 dw 64277
times 8 dw 60547
times 8 dw 54491
times 8 dw 46341
times 8 dw 36410
times 8 dw 25080
times 8 dw 12785
cextern pb_1
cextern pb_3
cextern pb_7
cextern pb_1F
cextern pb_80
cextern pb_81
cextern pw_8
SECTION .text
; this is off by one or two for some cases when filter_limit is greater than 63
; in: p0 in mm6, p1 in mm4, p2 in mm2, p3 in mm1
; out: p1 in mm4, p2 in mm3
%macro VP3_LOOP_FILTER 0
movq m7, m6
pand m6, [pb_7] ; p0&7
psrlw m7, 3
pand m7, [pb_1F] ; p0>>3
movq m3, m2 ; p2
pxor m2, m4
pand m2, [pb_1] ; (p2^p1)&1
movq m5, m2
paddb m2, m2
paddb m2, m5 ; 3*(p2^p1)&1
paddb m2, m6 ; extra bits lost in shifts
pcmpeqb m0, m0
pxor m1, m0 ; 255 - p3
pavgb m1, m2 ; (256 - p3 + extrabits) >> 1
pxor m0, m4 ; 255 - p1
pavgb m0, m3 ; (256 + p2-p1) >> 1
paddb m1, [pb_3]
pavgb m1, m0 ; 128+2+( p2-p1 - p3) >> 2
pavgb m1, m0 ; 128+1+(3*(p2-p1) - p3) >> 3
paddusb m7, m1 ; d+128+1
movq m6, [pb_81]
psubusb m6, m7
psubusb m7, [pb_81]
movq m5, [r2+516] ; flim
pminub m6, m5
pminub m7, m5
movq m0, m6
movq m1, m7
paddb m6, m6
paddb m7, m7
pminub m6, m5
pminub m7, m5
psubb m6, m0
psubb m7, m1
paddusb m4, m7
psubusb m4, m6
psubusb m3, m7
paddusb m3, m6
%endmacro
%macro STORE_4_WORDS 1
movd r2d, %1
mov [r0 -1], r2w
psrlq %1, 32
shr r2, 16
mov [r0+r1 -1], r2w
movd r2d, %1
mov [r0+r1*2-1], r2w
shr r2, 16
mov [r0+r3 -1], r2w
%endmacro
INIT_MMX
cglobal vp3_v_loop_filter_mmx2, 3, 4
%if ARCH_X86_64
movsxd r1, r1d
%endif
mov r3, r1
neg r1
movq m6, [r0+r1*2]
movq m4, [r0+r1 ]
movq m2, [r0 ]
movq m1, [r0+r3 ]
VP3_LOOP_FILTER
movq [r0+r1], m4
movq [r0 ], m3
RET
cglobal vp3_h_loop_filter_mmx2, 3, 4
%if ARCH_X86_64
movsxd r1, r1d
%endif
lea r3, [r1*3]
movd m6, [r0 -2]
movd m4, [r0+r1 -2]
movd m2, [r0+r1*2-2]
movd m1, [r0+r3 -2]
lea r0, [r0+r1*4 ]
punpcklbw m6, [r0 -2]
punpcklbw m4, [r0+r1 -2]
punpcklbw m2, [r0+r1*2-2]
punpcklbw m1, [r0+r3 -2]
sub r0, r3
sub r0, r1
TRANSPOSE4x4B 6, 4, 2, 1, 0
VP3_LOOP_FILTER
SBUTTERFLY bw, 4, 3, 5
STORE_4_WORDS m4
lea r0, [r0+r1*4 ]
STORE_4_WORDS m3
RET
; from original comments: The Macro does IDct on 4 1-D Dcts
%macro BeginIDCT 0
movq m2, I(3)
movq m6, C(3)
movq m4, m2
movq m7, J(5)
pmulhw m4, m6 ; r4 = c3*i3 - i3
movq m1, C(5)
pmulhw m6, m7 ; r6 = c3*i5 - i5
movq m5, m1
pmulhw m1, m2 ; r1 = c5*i3 - i3
movq m3, I(1)
pmulhw m5, m7 ; r5 = c5*i5 - i5
movq m0, C(1)
paddw m4, m2 ; r4 = c3*i3
paddw m6, m7 ; r6 = c3*i5
paddw m2, m1 ; r2 = c5*i3
movq m1, J(7)
paddw m7, m5 ; r7 = c5*i5
movq m5, m0 ; r5 = c1
pmulhw m0, m3 ; r0 = c1*i1 - i1
paddsw m4, m7 ; r4 = C = c3*i3 + c5*i5
pmulhw m5, m1 ; r5 = c1*i7 - i7
movq m7, C(7)
psubsw m6, m2 ; r6 = D = c3*i5 - c5*i3
paddw m0, m3 ; r0 = c1*i1
pmulhw m3, m7 ; r3 = c7*i1
movq m2, I(2)
pmulhw m7, m1 ; r7 = c7*i7
paddw m5, m1 ; r5 = c1*i7
movq m1, m2 ; r1 = i2
pmulhw m2, C(2) ; r2 = c2*i2 - i2
psubsw m3, m5 ; r3 = B = c7*i1 - c1*i7
movq m5, J(6)
paddsw m0, m7 ; r0 = A = c1*i1 + c7*i7
movq m7, m5 ; r7 = i6
psubsw m0, m4 ; r0 = A - C
pmulhw m5, C(2) ; r5 = c2*i6 - i6
paddw m2, m1 ; r2 = c2*i2
pmulhw m1, C(6) ; r1 = c6*i2
paddsw m4, m4 ; r4 = C + C
paddsw m4, m0 ; r4 = C. = A + C
psubsw m3, m6 ; r3 = B - D
paddw m5, m7 ; r5 = c2*i6
paddsw m6, m6 ; r6 = D + D
pmulhw m7, C(6) ; r7 = c6*i6
paddsw m6, m3 ; r6 = D. = B + D
movq I(1), m4 ; save C. at I(1)
psubsw m1, m5 ; r1 = H = c6*i2 - c2*i6
movq m4, C(4)
movq m5, m3 ; r5 = B - D
pmulhw m3, m4 ; r3 = (c4 - 1) * (B - D)
paddsw m7, m2 ; r3 = (c4 - 1) * (B - D)
movq I(2), m6 ; save D. at I(2)
movq m2, m0 ; r2 = A - C
movq m6, I(0)
pmulhw m0, m4 ; r0 = (c4 - 1) * (A - C)
paddw m5, m3 ; r5 = B. = c4 * (B - D)
movq m3, J(4)
psubsw m5, m1 ; r5 = B.. = B. - H
paddw m2, m0 ; r0 = A. = c4 * (A - C)
psubsw m6, m3 ; r6 = i0 - i4
movq m0, m6
pmulhw m6, m4 ; r6 = (c4 - 1) * (i0 - i4)
paddsw m3, m3 ; r3 = i4 + i4
paddsw m1, m1 ; r1 = H + H
paddsw m3, m0 ; r3 = i0 + i4
paddsw m1, m5 ; r1 = H. = B + H
pmulhw m4, m3 ; r4 = (c4 - 1) * (i0 + i4)
paddsw m6, m0 ; r6 = F = c4 * (i0 - i4)
psubsw m6, m2 ; r6 = F. = F - A.
paddsw m2, m2 ; r2 = A. + A.
movq m0, I(1) ; r0 = C.
paddsw m2, m6 ; r2 = A.. = F + A.
paddw m4, m3 ; r4 = E = c4 * (i0 + i4)
psubsw m2, m1 ; r2 = R2 = A.. - H.
%endmacro
; RowIDCT gets ready to transpose
%macro RowIDCT 0
BeginIDCT
movq m3, I(2) ; r3 = D.
psubsw m4, m7 ; r4 = E. = E - G
paddsw m1, m1 ; r1 = H. + H.
paddsw m7, m7 ; r7 = G + G
paddsw m1, m2 ; r1 = R1 = A.. + H.
paddsw m7, m4 ; r1 = R1 = A.. + H.
psubsw m4, m3 ; r4 = R4 = E. - D.
paddsw m3, m3
psubsw m6, m5 ; r6 = R6 = F. - B..
paddsw m5, m5
paddsw m3, m4 ; r3 = R3 = E. + D.
paddsw m5, m6 ; r5 = R5 = F. + B..
psubsw m7, m0 ; r7 = R7 = G. - C.
paddsw m0, m0
movq I(1), m1 ; save R1
paddsw m0, m7 ; r0 = R0 = G. + C.
%endmacro
; Column IDCT normalizes and stores final results
%macro ColumnIDCT 0
BeginIDCT
paddsw m2, OC_8 ; adjust R2 (and R1) for shift
paddsw m1, m1 ; r1 = H. + H.
paddsw m1, m2 ; r1 = R1 = A.. + H.
psraw m2, 4 ; r2 = NR2
psubsw m4, m7 ; r4 = E. = E - G
psraw m1, 4 ; r1 = NR2
movq m3, I(2) ; r3 = D.
paddsw m7, m7 ; r7 = G + G
movq I(2), m2 ; store NR2 at I2
paddsw m7, m4 ; r7 = G. = E + G
movq I(1), m1 ; store NR1 at I1
psubsw m4, m3 ; r4 = R4 = E. - D.
paddsw m4, OC_8 ; adjust R4 (and R3) for shift
paddsw m3, m3 ; r3 = D. + D.
paddsw m3, m4 ; r3 = R3 = E. + D.
psraw m4, 4 ; r4 = NR4
psubsw m6, m5 ; r6 = R6 = F. - B..
psraw m3, 4 ; r3 = NR3
paddsw m6, OC_8 ; adjust R6 (and R5) for shift
paddsw m5, m5 ; r5 = B.. + B..
paddsw m5, m6 ; r5 = R5 = F. + B..
psraw m6, 4 ; r6 = NR6
movq J(4), m4 ; store NR4 at J4
psraw m5, 4 ; r5 = NR5
movq I(3), m3 ; store NR3 at I3
psubsw m7, m0 ; r7 = R7 = G. - C.
paddsw m7, OC_8 ; adjust R7 (and R0) for shift
paddsw m0, m0 ; r0 = C. + C.
paddsw m0, m7 ; r0 = R0 = G. + C.
psraw m7, 4 ; r7 = NR7
movq J(6), m6 ; store NR6 at J6
psraw m0, 4 ; r0 = NR0
movq J(5), m5 ; store NR5 at J5
movq J(7), m7 ; store NR7 at J7
movq I(0), m0 ; store NR0 at I0
%endmacro
; Following macro does two 4x4 transposes in place.
;
; At entry (we assume):
;
; r0 = a3 a2 a1 a0
; I(1) = b3 b2 b1 b0
; r2 = c3 c2 c1 c0
; r3 = d3 d2 d1 d0
;
; r4 = e3 e2 e1 e0
; r5 = f3 f2 f1 f0
; r6 = g3 g2 g1 g0
; r7 = h3 h2 h1 h0
;
; At exit, we have:
;
; I(0) = d0 c0 b0 a0
; I(1) = d1 c1 b1 a1
; I(2) = d2 c2 b2 a2
; I(3) = d3 c3 b3 a3
;
; J(4) = h0 g0 f0 e0
; J(5) = h1 g1 f1 e1
; J(6) = h2 g2 f2 e2
; J(7) = h3 g3 f3 e3
;
; I(0) I(1) I(2) I(3) is the transpose of r0 I(1) r2 r3.
; J(4) J(5) J(6) J(7) is the transpose of r4 r5 r6 r7.
;
; Since r1 is free at entry, we calculate the Js first.
%macro Transpose 0
movq m1, m4 ; r1 = e3 e2 e1 e0
punpcklwd m4, m5 ; r4 = f1 e1 f0 e0
movq I(0), m0 ; save a3 a2 a1 a0
punpckhwd m1, m5 ; r1 = f3 e3 f2 e2
movq m0, m6 ; r0 = g3 g2 g1 g0
punpcklwd m6, m7 ; r6 = h1 g1 h0 g0
movq m5, m4 ; r5 = f1 e1 f0 e0
punpckldq m4, m6 ; r4 = h0 g0 f0 e0 = R4
punpckhdq m5, m6 ; r5 = h1 g1 f1 e1 = R5
movq m6, m1 ; r6 = f3 e3 f2 e2
movq J(4), m4
punpckhwd m0, m7 ; r0 = h3 g3 h2 g2
movq J(5), m5
punpckhdq m6, m0 ; r6 = h3 g3 f3 e3 = R7
movq m4, I(0) ; r4 = a3 a2 a1 a0
punpckldq m1, m0 ; r1 = h2 g2 f2 e2 = R6
movq m5, I(1) ; r5 = b3 b2 b1 b0
movq m0, m4 ; r0 = a3 a2 a1 a0
movq J(7), m6
punpcklwd m0, m5 ; r0 = b1 a1 b0 a0
movq J(6), m1
punpckhwd m4, m5 ; r4 = b3 a3 b2 a2
movq m5, m2 ; r5 = c3 c2 c1 c0
punpcklwd m2, m3 ; r2 = d1 c1 d0 c0
movq m1, m0 ; r1 = b1 a1 b0 a0
punpckldq m0, m2 ; r0 = d0 c0 b0 a0 = R0
punpckhdq m1, m2 ; r1 = d1 c1 b1 a1 = R1
movq m2, m4 ; r2 = b3 a3 b2 a2
movq I(0), m0
punpckhwd m5, m3 ; r5 = d3 c3 d2 c2
movq I(1), m1
punpckhdq m4, m5 ; r4 = d3 c3 b3 a3 = R3
punpckldq m2, m5 ; r2 = d2 c2 b2 a2 = R2
movq I(3), m4
movq I(2), m2
%endmacro
%macro VP3_IDCT_mmx 1
; eax = quantized input
; ebx = dequantizer matrix
; ecx = IDCT constants
; M(I) = ecx + MaskOffset(0) + I * 8
; C(I) = ecx + CosineOffset(32) + (I-1) * 8
; edx = output
; r0..r7 = mm0..mm7
%define OC_8 [pw_8]
%define C(x) [vp3_idct_data+16*(x-1)]
; at this point, function has completed dequantization + dezigzag +
; partial transposition; now do the idct itself
%define I(x) [%1+16* x ]
%define J(x) [%1+16*(x-4)+8]
RowIDCT
Transpose
%define I(x) [%1+16* x +64]
%define J(x) [%1+16*(x-4)+72]
RowIDCT
Transpose
%define I(x) [%1+16*x]
%define J(x) [%1+16*x]
ColumnIDCT
%define I(x) [%1+16*x+8]
%define J(x) [%1+16*x+8]
ColumnIDCT
%endmacro
%macro VP3_1D_IDCT_SSE2 0
movdqa m2, I(3) ; xmm2 = i3
movdqa m6, C(3) ; xmm6 = c3
movdqa m4, m2 ; xmm4 = i3
movdqa m7, I(5) ; xmm7 = i5
pmulhw m4, m6 ; xmm4 = c3 * i3 - i3
movdqa m1, C(5) ; xmm1 = c5
pmulhw m6, m7 ; xmm6 = c3 * i5 - i5
movdqa m5, m1 ; xmm5 = c5
pmulhw m1, m2 ; xmm1 = c5 * i3 - i3
movdqa m3, I(1) ; xmm3 = i1
pmulhw m5, m7 ; xmm5 = c5 * i5 - i5
movdqa m0, C(1) ; xmm0 = c1
paddw m4, m2 ; xmm4 = c3 * i3
paddw m6, m7 ; xmm6 = c3 * i5
paddw m2, m1 ; xmm2 = c5 * i3
movdqa m1, I(7) ; xmm1 = i7
paddw m7, m5 ; xmm7 = c5 * i5
movdqa m5, m0 ; xmm5 = c1
pmulhw m0, m3 ; xmm0 = c1 * i1 - i1
paddsw m4, m7 ; xmm4 = c3 * i3 + c5 * i5 = C
pmulhw m5, m1 ; xmm5 = c1 * i7 - i7
movdqa m7, C(7) ; xmm7 = c7
psubsw m6, m2 ; xmm6 = c3 * i5 - c5 * i3 = D
paddw m0, m3 ; xmm0 = c1 * i1
pmulhw m3, m7 ; xmm3 = c7 * i1
movdqa m2, I(2) ; xmm2 = i2
pmulhw m7, m1 ; xmm7 = c7 * i7
paddw m5, m1 ; xmm5 = c1 * i7
movdqa m1, m2 ; xmm1 = i2
pmulhw m2, C(2) ; xmm2 = i2 * c2 -i2
psubsw m3, m5 ; xmm3 = c7 * i1 - c1 * i7 = B
movdqa m5, I(6) ; xmm5 = i6
paddsw m0, m7 ; xmm0 = c1 * i1 + c7 * i7 = A
movdqa m7, m5 ; xmm7 = i6
psubsw m0, m4 ; xmm0 = A - C
pmulhw m5, C(2) ; xmm5 = c2 * i6 - i6
paddw m2, m1 ; xmm2 = i2 * c2
pmulhw m1, C(6) ; xmm1 = c6 * i2
paddsw m4, m4 ; xmm4 = C + C
paddsw m4, m0 ; xmm4 = A + C = C.
psubsw m3, m6 ; xmm3 = B - D
paddw m5, m7 ; xmm5 = c2 * i6
paddsw m6, m6 ; xmm6 = D + D
pmulhw m7, C(6) ; xmm7 = c6 * i6
paddsw m6, m3 ; xmm6 = B + D = D.
movdqa I(1), m4 ; Save C. at I(1)
psubsw m1, m5 ; xmm1 = c6 * i2 - c2 * i6 = H
movdqa m4, C(4) ; xmm4 = C4
movdqa m5, m3 ; xmm5 = B - D
pmulhw m3, m4 ; xmm3 = ( c4 -1 ) * ( B - D )
paddsw m7, m2 ; xmm7 = c2 * i2 + c6 * i6 = G
movdqa I(2), m6 ; save D. at I(2)
movdqa m2, m0 ; xmm2 = A - C
movdqa m6, I(0) ; xmm6 = i0
pmulhw m0, m4 ; xmm0 = ( c4 - 1 ) * ( A - C ) = A.
paddw m5, m3 ; xmm5 = c4 * ( B - D ) = B.
movdqa m3, I(4) ; xmm3 = i4
psubsw m5, m1 ; xmm5 = B. - H = B..
paddw m2, m0 ; xmm2 = c4 * ( A - C) = A.
psubsw m6, m3 ; xmm6 = i0 - i4
movdqa m0, m6 ; xmm0 = i0 - i4
pmulhw m6, m4 ; xmm6 = (c4 - 1) * (i0 - i4) = F
paddsw m3, m3 ; xmm3 = i4 + i4
paddsw m1, m1 ; xmm1 = H + H
paddsw m3, m0 ; xmm3 = i0 + i4
paddsw m1, m5 ; xmm1 = B. + H = H.
pmulhw m4, m3 ; xmm4 = ( c4 - 1 ) * ( i0 + i4 )
paddw m6, m0 ; xmm6 = c4 * ( i0 - i4 )
psubsw m6, m2 ; xmm6 = F - A. = F.
paddsw m2, m2 ; xmm2 = A. + A.
movdqa m0, I(1) ; Load C. from I(1)
paddsw m2, m6 ; xmm2 = F + A. = A..
paddw m4, m3 ; xmm4 = c4 * ( i0 + i4 ) = 3
psubsw m2, m1 ; xmm2 = A.. - H. = R2
ADD(m2) ; Adjust R2 and R1 before shifting
paddsw m1, m1 ; xmm1 = H. + H.
paddsw m1, m2 ; xmm1 = A.. + H. = R1
SHIFT(m2) ; xmm2 = op2
psubsw m4, m7 ; xmm4 = E - G = E.
SHIFT(m1) ; xmm1 = op1
movdqa m3, I(2) ; Load D. from I(2)
paddsw m7, m7 ; xmm7 = G + G
paddsw m7, m4 ; xmm7 = E + G = G.
psubsw m4, m3 ; xmm4 = E. - D. = R4
ADD(m4) ; Adjust R4 and R3 before shifting
paddsw m3, m3 ; xmm3 = D. + D.
paddsw m3, m4 ; xmm3 = E. + D. = R3
SHIFT(m4) ; xmm4 = op4
psubsw m6, m5 ; xmm6 = F. - B..= R6
SHIFT(m3) ; xmm3 = op3
ADD(m6) ; Adjust R6 and R5 before shifting
paddsw m5, m5 ; xmm5 = B.. + B..
paddsw m5, m6 ; xmm5 = F. + B.. = R5
SHIFT(m6) ; xmm6 = op6
SHIFT(m5) ; xmm5 = op5
psubsw m7, m0 ; xmm7 = G. - C. = R7
ADD(m7) ; Adjust R7 and R0 before shifting
paddsw m0, m0 ; xmm0 = C. + C.
paddsw m0, m7 ; xmm0 = G. + C.
SHIFT(m7) ; xmm7 = op7
SHIFT(m0) ; xmm0 = op0
%endmacro
%macro PUT_BLOCK 8
movdqa O(0), m%1
movdqa O(1), m%2
movdqa O(2), m%3
movdqa O(3), m%4
movdqa O(4), m%5
movdqa O(5), m%6
movdqa O(6), m%7
movdqa O(7), m%8
%endmacro
%macro VP3_IDCT_sse2 1
%define I(x) [%1+16*x]
%define O(x) [%1+16*x]
%define C(x) [vp3_idct_data+16*(x-1)]
%define SHIFT(x)
%define ADD(x)
VP3_1D_IDCT_SSE2
%if ARCH_X86_64
TRANSPOSE8x8W 0, 1, 2, 3, 4, 5, 6, 7, 8
%else
TRANSPOSE8x8W 0, 1, 2, 3, 4, 5, 6, 7, [%1], [%1+16]
%endif
PUT_BLOCK 0, 1, 2, 3, 4, 5, 6, 7
%define SHIFT(x) psraw x, 4
%define ADD(x) paddsw x, [pw_8]
VP3_1D_IDCT_SSE2
PUT_BLOCK 0, 1, 2, 3, 4, 5, 6, 7
%endmacro
%macro vp3_idct_funcs 1
cglobal vp3_idct_put_%1, 3, 4, 9
VP3_IDCT_%1 r2
movsxdifnidn r1, r1d
mova m4, [pb_80]
lea r3, [r1*3]
%assign %%i 0
%rep 16/mmsize
mova m0, [r2+mmsize*0+%%i]
mova m1, [r2+mmsize*2+%%i]
mova m2, [r2+mmsize*4+%%i]
mova m3, [r2+mmsize*6+%%i]
packsswb m0, [r2+mmsize*1+%%i]
packsswb m1, [r2+mmsize*3+%%i]
packsswb m2, [r2+mmsize*5+%%i]
packsswb m3, [r2+mmsize*7+%%i]
paddb m0, m4
paddb m1, m4
paddb m2, m4
paddb m3, m4
movq [r0 ], m0
%if mmsize == 8
movq [r0+r1 ], m1
movq [r0+r1*2], m2
movq [r0+r3 ], m3
%else
movhps [r0+r1 ], m0
movq [r0+r1*2], m1
movhps [r0+r3 ], m1
%endif
%if %%i == 0
lea r0, [r0+r1*4]
%endif
%if mmsize == 16
movq [r0 ], m2
movhps [r0+r1 ], m2
movq [r0+r1*2], m3
movhps [r0+r3 ], m3
%endif
%assign %%i %%i+64
%endrep
RET
cglobal vp3_idct_add_%1, 3, 4, 9
VP3_IDCT_%1 r2
mov r3, 4
pxor m4, m4
movsxdifnidn r1, r1d
.loop:
movq m0, [r0]
movq m1, [r0+r1]
%if mmsize == 8
mova m2, m0
mova m3, m1
%endif
punpcklbw m0, m4
punpcklbw m1, m4
%if mmsize == 8
punpckhbw m2, m4
punpckhbw m3, m4
%endif
paddsw m0, [r2+ 0]
paddsw m1, [r2+16]
%if mmsize == 8
paddsw m2, [r2+ 8]
paddsw m3, [r2+24]
packuswb m0, m2
packuswb m1, m3
%else ; mmsize == 16
packuswb m0, m1
%endif
movq [r0 ], m0
%if mmsize == 8
movq [r0+r1], m1
%else ; mmsize == 16
movhps [r0+r1], m0
%endif
lea r0, [r0+r1*2]
add r2, 32
dec r3
jg .loop
RET
%endmacro
INIT_MMX
vp3_idct_funcs mmx
INIT_XMM
vp3_idct_funcs sse2
%macro DC_ADD 0
movq m2, [r0 ]
movq m3, [r0+r1 ]
paddusb m2, m0
movq m4, [r0+r1*2]
paddusb m3, m0
movq m5, [r0+r3 ]
paddusb m4, m0
paddusb m5, m0
psubusb m2, m1
psubusb m3, m1
movq [r0 ], m2
psubusb m4, m1
movq [r0+r1 ], m3
psubusb m5, m1
movq [r0+r1*2], m4
movq [r0+r3 ], m5
%endmacro
INIT_MMX
cglobal vp3_idct_dc_add_mmx2, 3, 4
%if ARCH_X86_64
movsxd r1, r1d
%endif
lea r3, [r1*3]
movsx r2, word [r2]
add r2, 15
sar r2, 5
movd m0, r2d
pshufw m0, m0, 0x0
pxor m1, m1
psubw m1, m0
packuswb m0, m0
packuswb m1, m1
DC_ADD
lea r0, [r0+r1*4]
DC_ADD
RET
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