rockbox/apps/plugins/mpegplayer/libmpeg2/idct_coldfire.S
Solomon Peachy 9d3d925295 Revert "RFC: Get rid of mpegplayer plugin"
This reverts commit d25d24812e.

Change-Id: I1563223e343fb1e2eda72a45823b38350025ff93
2022-10-13 11:08:11 -04:00

575 lines
17 KiB
ArmAsm

/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2007 Jens Arnold
* Based on the work of Karim Boucher and Rani Hod
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
.global mpeg2_idct_copy
.type mpeg2_idct_copy, @function
.global mpeg2_idct_add
.type mpeg2_idct_add, @function
/* The IDCT itself.
* Input: %a0: block pointer
* Caller must save all registers. */
.align 2
.idct:
move.l %a0, %a6
move.l #0, %macsr | signed integer mode
move.l #((2048<<16)+2841), %a0 | W0, W1
move.l #((2676<<16)+2408), %a1 | W2, W3
move.l #((2048<<16)+1609), %a2 | W4, W5
move.l #((1108<<16)+ 565), %a3 | W6, W7
lea.l (128,%a6), %a4 | secondary, transposed temp buffer
moveq.l #8, %d3 | loop counter
.row_loop:
movem.l (%a6), %d0-%d2/%a5 | fetch (f0, f2, f4, f6, f1, f3, f5, f7)
mac.w %a0l, %d2u, %acc0 | %acc0 = W1 * f1
mac.w %a1l, %d2l, %acc0 | + W3 * f3
mac.w %a2l, %a5u, %acc0 | + W5 * f5
mac.w %a3l, %a5l, %acc0 | + W7 * f7
mac.w %a1l, %d2u, %acc1 | %acc1 = W3 * f1
msac.w %a3l, %d2l, %acc1 | - W7 * f3
msac.w %a0l, %a5u, %acc1 | - W1 * f5
msac.w %a2l, %a5l, %acc1 | - W5 * f7
mac.w %a2l, %d2u, %acc2 | %acc2 = W5 * f1
msac.w %a0l, %d2l, %acc2 | - W1 * f3
mac.w %a3l, %a5u, %acc2 | + W7 * f5
mac.w %a1l, %a5l, %acc2 | + W3 * f7
mac.w %a3l, %d2u, %acc3 | %acc3 = W7 * f1
msac.w %a2l, %d2l, %acc3 | - W5 * f3
mac.w %a1l, %a5u, %acc3 | + W3 * f5
msac.w %a0l, %a5l, %acc3 | - W1 * f7
lea.l (16,%a6), %a6 | Advance to next row; put here to fill EMAC latency
add.l #(1<<16), %d0 | f0 += 1;
movclr.l %acc0, %d4 | b0
movclr.l %acc1, %d5 | b1
movclr.l %acc2, %d6 | b2
movclr.l %acc3, %d7 | b3
mac.w %a0u, %d0u, %acc0 | %acc0 = W0 * f0
mac.w %a2u, %d1u, %acc0 | + W4 * f4
move.l %acc0, %acc3
mac.w %a1u, %d0l, %acc0 | + W2 * f2
mac.w %a3u, %d1l, %acc0 | + W6 * f6
mac.w %a0u, %d0u, %acc1 | %acc1 = W0 * f0
msac.w %a2u, %d1u, %acc1 | - W4 * f4
move.l %acc1, %acc2
mac.w %a3u, %d0l, %acc1 | + W6 * f2
msac.w %a1u, %d1l, %acc1 | - W2 * f6
| ^ move.l %acc1, %acc2 %acc2 = W0 * f0 - W4 * f4
msac.w %a3u, %d0l, %acc2 | - W6 * f2
mac.w %a1u, %d1l, %acc2 | + W2 * f6
| ^ move.l %acc0, %acc3 %acc3 = W0 * f0 + W4 * f4
msac.w %a1u, %d0l, %acc3 | - W2 * f2
msac.w %a3u, %d1l, %acc3 | - W6 * f6
moveq.l #12, %d1 | shift amount
move.l %acc0, %d0 | block[7] = (a0
sub.l %d4,%d0 | - b0)
asr.l %d1, %d0 | >> 12
move.w %d0, (7*16,%a4)
move.l %acc1, %d0 | block[6] = (a1
sub.l %d5,%d0 | - b1)
asr.l %d1, %d0 | >> 12
move.w %d0, (6*16,%a4)
move.l %acc2, %d0 | block[5] = (a2
sub.l %d6,%d0 | - b2)
asr.l %d1, %d0 | >> 12
move.w %d0, (5*16,%a4)
move.l %acc3, %d0 | block[4] = (a3
sub.l %d7,%d0 | - b3)
asr.l %d1, %d0 | >> 12
move.w %d0, (4*16,%a4)
movclr.l %acc3, %d0 | block[3] = (a3
add.l %d7, %d0 | + b3)
asr.l %d1, %d0 | >> 12
move.w %d0, (3*16,%a4)
movclr.l %acc2, %d0 | block[2] = (a2
add.l %d6, %d0 | + b2)
asr.l %d1, %d0 | >> 12
move.w %d0, (2*16,%a4)
movclr.l %acc1, %d0 | block[1] = (a1
add.l %d5, %d0 | + b1)
asr.l %d1, %d0 | >> 12
move.w %d0, (1*16,%a4)
movclr.l %acc0, %d0 | block[0] = (a0
add.l %d4, %d0 | + b0)
asr.l %d1, %d0 | >> 12
move.w %d0, (%a4)+ | advance to next temp column
subq.l #1, %d3 | loop 8 times
bne.w .row_loop
| %a6 now points to the temp buffer, where we need it.
lea.l (-16-128,%a4), %a4 | point %a4 back to the input block
moveq.l #8, %d3 | loop counter
.col_loop:
movem.l (%a6), %d0-%d2/%a5 | fetch (f0, f2, f4, f6, f1, f3, f5, f7)
mac.w %a0l, %d2u, %acc0 | %acc0 = W1 * f1
mac.w %a1l, %d2l, %acc0 | + W3 * f3
mac.w %a2l, %a5u, %acc0 | + W5 * f5
mac.w %a3l, %a5l, %acc0 | + W7 * f7
mac.w %a1l, %d2u, %acc1 | %acc1 = W3 * f1
msac.w %a3l, %d2l, %acc1 | - W7 * f3
msac.w %a0l, %a5u, %acc1 | - W1 * f5
msac.w %a2l, %a5l, %acc1 | - W5 * f7
mac.w %a2l, %d2u, %acc2 | %acc2 = W5 * f1
msac.w %a0l, %d2l, %acc2 | - W1 * f3
mac.w %a3l, %a5u, %acc2 | + W7 * f5
mac.w %a1l, %a5l, %acc2 | + W3 * f7
mac.w %a3l, %d2u, %acc3 | %acc3 = W7 * f1
msac.w %a2l, %d2l, %acc3 | - W5 * f3
mac.w %a1l, %a5u, %acc3 | + W3 * f5
msac.w %a0l, %a5l, %acc3 | - W1 * f7
lea.l (16,%a6), %a6 | Advance to next row; put here to fill EMAC latency
add.l #(32<<16), %d0 | DC offset: 0.5
movclr.l %acc0, %d4 | b0
movclr.l %acc1, %d5 | b1
movclr.l %acc2, %d6 | b2
movclr.l %acc3, %d7 | b3
mac.w %a0u, %d0u, %acc0 | %acc0 = W0 * f0
mac.w %a2u, %d1u, %acc0 | + W4 * f4
move.l %acc0, %acc3
mac.w %a1u, %d0l, %acc0 | + W2 * f2
mac.w %a3u, %d1l, %acc0 | + W6 * f6
mac.w %a0u, %d0u, %acc1 | %acc1 = W0 * f0
msac.w %a2u, %d1u, %acc1 | - W4 * f4
move.l %acc1, %acc2
mac.w %a3u, %d0l, %acc1 | + W6 * f2
msac.w %a1u, %d1l, %acc1 | - W2 * f6
| ^ move.l %acc1, %acc2 %acc2 = W0 * f0 - W4 * f4
msac.w %a3u, %d0l, %acc2 | - W6 * f2
mac.w %a1u, %d1l, %acc2 | + W2 * f6
| ^ move.l %acc0, %acc3 %acc3 = W0 * f0 + W4 * f4
msac.w %a1u, %d0l, %acc3 | - W2 * f2
msac.w %a3u, %d1l, %acc3 | - W6 * f6
moveq.l #17, %d1 | shift amount
move.l %acc0, %d0 | block[7] = (a0
sub.l %d4,%d0 | - b0)
asr.l %d1, %d0 | >> 17
move.w %d0, (7*16,%a4)
move.l %acc1, %d0 | block[6] = (a1
sub.l %d5,%d0 | - b1)
asr.l %d1, %d0 | >> 17
move.w %d0, (6*16,%a4)
move.l %acc2, %d0 | block[5] = (a2
sub.l %d6,%d0 | - b2)
asr.l %d1, %d0 | >> 17
move.w %d0, (5*16,%a4)
move.l %acc3, %d0 | block[4] = (a3
sub.l %d7,%d0 | - b3)
asr.l %d1, %d0 | >> 17
move.w %d0, (4*16,%a4)
movclr.l %acc3, %d0 | block[3] = (a3
add.l %d7, %d0 | + b3)
asr.l %d1, %d0 | >> 17
move.w %d0, (3*16,%a4)
movclr.l %acc2, %d0 | block[2] = (a2
add.l %d6, %d0 | + b2)
asr.l %d1, %d0 | >> 17
move.w %d0, (2*16,%a4)
movclr.l %acc1, %d0 | block[1] = (a1
add.l %d5, %d0 | + b1)
asr.l %d1, %d0 | >> 17
move.w %d0, (1*16,%a4)
movclr.l %acc0, %d0 | block[0] = (a0
add.l %d4, %d0 | + b0)
asr.l %d1, %d0 | >> 17
move.w %d0, (%a4)+ | advance to next column
subq.l #1, %d3 | loop 8 times
bne.w .col_loop
rts
.align 2
mpeg2_idct_copy:
lea.l (-11*4,%sp), %sp
movem.l %d2-%d7/%a2-%a6, (%sp) | save some registers
move.l (11*4+4,%sp), %a0 | %a0 - block pointer for idct
bsr.w .idct | apply idct to block
movem.l (11*4+4,%sp), %a0-%a2 | %a0 - block pointer
| %a1 - destination pointer
| %a2 - stride
move.l #255, %d1 | preload constant for clipping
moveq.l #8, %d4 | loop counter
.copy_clip_loop:
move.w (%a0), %d0 | load block[0]
ext.l %d0 | sign extend
cmp.l %d1, %d0 | overflow?
bls.b 1f
spl.b %d0 | yes: set appropriate limit value in low byte
1:
move.b %d0, %d2 | collect output bytes 0..3 in %d2
lsl.l #8, %d2
move.w (2,%a0), %d0 | load block[1]
ext.l %d0 | sign extend
cmp.l %d1, %d0 | overflow?
bls.b 1f
spl.b %d0 | yes: set appropriate limit value in low byte
1:
move.b %d0, %d2 | collect output bytes 0..3 in %d2
lsl.l #8, %d2
clr.l (%a0)+ | clear block[0] and block[1],
| %a0 now pointing to block[2]
move.w (%a0), %d0 | do b2 and b3
ext.l %d0
cmp.l %d1, %d0
bls.b 1f
spl.b %d0
1:
move.b %d0, %d2
lsl.l #8, %d2
move.w (2,%a0), %d0
ext.l %d0
cmp.l %d1, %d0
bls.b 1f
spl.b %d0
1:
move.b %d0, %d2
clr.l (%a0)+
move.w (%a0), %d0 | do b4 and b5
ext.l %d0
cmp.l %d1, %d0
bls.b 1f
spl.b %d0
1:
move.b %d0, %d3
lsl.l #8, %d3
move.w (2,%a0), %d0
ext.l %d0
cmp.l %d1, %d0
bls.b 1f
spl.b %d0
1:
move.b %d0, %d3
lsl.l #8, %d3
clr.l (%a0)+
move.w (%a0), %d0 | do b6 and b7
ext.l %d0
cmp.l %d1, %d0
bls.b 1f
spl.b %d0
1:
move.b %d0, %d3
lsl.l #8, %d3
move.w (2,%a0), %d0
ext.l %d0
cmp.l %d1, %d0
bls.b 1f
spl.b %d0
1:
move.b %d0, %d3
clr.l (%a0)+
movem.l %d2-%d3, (%a1) | write all 8 output bytes at once
add.l %a2, %a1 | advance output pointer
subq.l #1, %d4 | loop 8 times
bne.w .copy_clip_loop
movem.l (%sp), %d2-%d7/%a2-%a6
lea.l (11*4,%sp), %sp
rts
.align 2
mpeg2_idct_add:
lea.l (-11*4,%sp), %sp
movem.l %d2-%d7/%a2-%a6, (%sp)
movem.l (11*4+4,%sp), %d0/%a0-%a2 | %d0 - last value
| %a0 - block pointer
| %a1 - destination pointer
| %a2 - stride
cmp.l #129, %d0 | last == 129 ?
bne.b .idct_add | no: perform idct + addition
move.w (%a0), %d0
ext.l %d0 | ((block[0]
asr.l #4, %d0 | >> 4)
and.l #7, %d0 | & 7)
subq.l #4, %d0 | - 4 == 0 ?
bne.w .dc_add | no: just perform addition
.idct_add:
bsr.w .idct | apply idct
movem.l (11*4+8,%sp), %a0-%a2 | reload arguments %a0..%a2
move.l #255, %d2 | preload constant for clipping
clr.l %d3 | used for splitting input words into bytes
moveq.l #8, %d4 | loop counter
.add_clip_loop:
movem.l (%a1), %d6-%d7 | fetch (b0 b1 b2 b3) (b4 b5 b6 b7)
swap %d6 | (b2 b3 b0 b1)
swap %d7 | (b6 b7 b4 b5)
move.w (2,%a0), %d0 | load block[1]
ext.l %d0 | sign extend
move.b %d6, %d3 | copy b1
lsr.l #8, %d6 | prepare 1st buffer for next byte
add.l %d3, %d0 | add b1
cmp.l %d2, %d0 | overflow ?
bls.b 1f
spl.b %d0 | yes: set appropriate limit value in low byte
1:
move.w (%a0), %d1 | load block[0]
ext.l %d1 | sign extend
move.b %d6, %d3 | copy b0
lsr.l #8, %d6 | prepare 1st buffer for next byte
add.l %d3, %d1 | add b0
cmp.l %d2, %d1 | overflow ?
bls.b 1f
spl.b %d1 | yes: set appropriate limit value in low byte
1:
move.b %d1, %d5 | collect output bytes 0..3 in %d5
lsl.l #8, %d5
move.b %d0, %d5
lsl.l #8, %d5
clr.l (%a0)+ | clear block[0] and block[1]
| %a0 now pointing to block[2]
move.w (2,%a0), %d0 | do b3 and b2
ext.l %d0
move.b %d6, %d3
lsr.l #8, %d6
add.l %d3, %d0
cmp.l %d2, %d0
bls.b 1f
spl.b %d0
1:
move.w (%a0), %d1
ext.l %d1
add.l %d6, %d1
cmp.l %d2, %d1
bls.b 1f
spl.b %d1
1:
move.b %d1, %d5
lsl.l #8, %d5
move.b %d0, %d5
clr.l (%a0)+
move.w (2,%a0), %d0 | do b5 and b4
ext.l %d0
move.b %d7, %d3
lsr.l #8, %d7
add.l %d3, %d0
cmp.l %d2, %d0
bls.b 1f
spl.b %d0
1:
move.w (%a0), %d1
ext.l %d1
move.b %d7, %d3
lsr.l #8, %d7
add.l %d3, %d1
cmp.l %d2, %d1
bls.b 1f
spl.b %d1
1:
move.b %d1, %d6
lsl.l #8, %d6
move.b %d0, %d6
lsl.l #8, %d6
clr.l (%a0)+
move.w (2,%a0), %d0 | do b7 and b6
ext.l %d0
move.b %d7, %d3
lsr.l #8, %d7
add.l %d3, %d0
cmp.l %d2, %d0
bls.b 1f
spl.b %d0
1:
move.w (%a0), %d1
ext.l %d1
add.l %d7, %d1
cmp.l %d2, %d1
bls.b 1f
spl.b %d1
1:
move.b %d1, %d6
lsl.l #8, %d6
move.b %d0, %d6
clr.l (%a0)+
movem.l %d5-%d6, (%a1) | write all 8 output bytes at once
add.l %a2, %a1 | advance output pointer
subq.l #1, %d4 | loop 8 times
bne.w .add_clip_loop
bra.w .idct_add_end
.dc_add:
move.w (%a0), %d0
ext.l %d0 | %d0 = (block[0]
add.l #64, %d0 | + 64)
asr.l #7, %d0 | >> 7
clr.w (%a0) | clear block[0]
clr.w (63*2,%a0) | and block[63]
move.l %d0, %a0 | DC value in %a0
move.l #255, %d2 | preload constant for clipping
clr.l %d3 | for splitting input words into bytes
moveq.l #8, %d4 | loop counter
.dc_clip_loop:
movem.l (%a1), %d6-%d7 | (b0 b1 b2 b3) (b4 b5 b6 b7)
swap %d6 | (b2 b3 b0 b1)
swap %d7 | (b6 b7 b4 b5)
move.l %a0, %d0 | copy DC
move.b %d6, %d3 | copy b1
lsr.l #8, %d6 | prepare 1st buffer for next byte
add.l %d3, %d0 | add b1
cmp.l %d2, %d0 | overflow ?
bls.b 1f
spl.b %d0 | yes: set appropriate limit value in low byte
1:
move.l %a0, %d1 | copy DC
move.b %d6, %d3 | copy b0
lsr.l #8, %d6 | prepare 1st buffer for next byte
add.l %d3, %d1 | add b0
cmp.l %d2, %d1 | overflow ?
bls.b 1f
spl.b %d1 | yes: set appropriate limit value in low byte
1:
move.b %d1, %d5 | collect output bytes 0..3 in %d5
lsl.l #8, %d5
move.b %d0, %d5
lsl.l #8, %d5
move.l %a0, %d0 | do b3 and b2
move.b %d6, %d3
lsr.l #8, %d6
add.l %d3, %d0
cmp.l %d2, %d0
bls.b 1f
spl.b %d0
1:
move.l %a0, %d1
add.l %d6, %d1
cmp.l %d2, %d1
bls.b 1f
spl.b %d1
1:
move.b %d1, %d5
lsl.l #8, %d5
move.b %d0, %d5
move.l %a0, %d0 | do b5 and b4
move.b %d7, %d3
lsr.l #8, %d7
add.l %d3, %d0
cmp.l %d2, %d0
bls.b 1f
spl.b %d0
1:
move.l %a0, %d1
move.b %d7, %d3
lsr.l #8, %d7
add.l %d3, %d1
cmp.l %d2, %d1
bls.b 1f
spl.b %d1
1:
move.b %d1, %d6 | do b7 and b6
lsl.l #8, %d6
move.b %d0, %d6
lsl.l #8, %d6
move.l %a0, %d0
move.b %d7, %d3
lsr.l #8, %d7
add.l %d3, %d0
cmp.l %d2, %d0
bls.b 1f
spl.b %d0
1:
move.l %a0, %d1
add.l %d7, %d1
cmp.l %d2, %d1
bls.b 1f
spl.b %d1
1:
move.b %d1, %d6
lsl.l #8, %d6
move.b %d0, %d6
movem.l %d5-%d6, (%a1) | write all 8 output bytes at once
add.l %a2, %a1 | advance output pointer
subq.l #1, %d4 | loop 8 times
bne.w .dc_clip_loop
.idct_add_end:
movem.l (%sp), %d2-%d7/%a2-%a6
lea.l (11*4,%sp), %sp
rts