rockbox/apps/codecs/libwavpack/coldfire.S
Thom Johansen 668205f427 We clear our accumulators after we're done with them on Coldfire. No need to clear them on init.
git-svn-id: svn://svn.rockbox.org/rockbox/trunk@6609 a1c6a512-1295-4272-9138-f99709370657
2005-06-08 13:41:07 +00:00

535 lines
21 KiB
ArmAsm

/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2005 by David Bryant
*
* All files in this archive are subject to the GNU General Public License.
* See the file COPYING in the source tree root for full license agreement.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
/* This is an assembly optimized version of the following WavPack function:
*
* void decorr_stereo_pass_cont_mcf5249 (struct decorr_pass *dpp,
* long *buffer, long sample_count);
*
* It performs a single pass of stereo decorrelation on the provided buffer.
* Note that this version of the function requires that the 8 previous stereo
* samples are visible and correct. In other words, it ignores the "samples_*"
* fields in the decorr_pass structure and gets the history data directly
* from the buffer. It does, however, return the appropriate history samples
* to the decorr_pass structure before returning.
*
* This is written to work on a MCF5249 processor, or any processor based on
* the ColdFire V2 core with an EMAC unit. The EMAC is perfectly suited for
* the "apply_weight" function of WavPack decorrelation because it provides
* the requires 40-bit product. The fractional rounding mode of the EMAC is not
* configurable and uses "round to even" while WavPack uses "round to larger",
* so the rounding has to be done manually.
*/
.text
.align 2
.global decorr_stereo_pass_cont_mcf5249
decorr_stereo_pass_cont_mcf5249:
lea (-44, %sp), %sp
movem.l %d2-%d7/%a2-%a6, (%sp)
move.l 44+4(%sp), %a2 | a2 = dpp->
move.l 44+8(%sp), %a1 | a1 = bptr
move.w 2(%a2), %a3 | a3 = dpp->delta
move.w 4(%a2), %d3 | d3 = dpp->weight_A (sign extended)
ext.l %d3
move.w 6(%a2), %d4 | d4 = dpp->weight_B (sign extended)
ext.l %d4
move.l 44+12(%sp), %d0 | d0 = sample_count
jbeq return_only | if zero, nothing to do
lsl.l #3, %d0 | d5 = bptr + (sample_count * 8)
move.l %d0, %d5
add.l %a1, %d5
moveq.l #17, %d0 | left shift weights & delta 17 places
asl.l %d0, %d3
asl.l %d0, %d4
move.l %a3, %d1
asl.l %d0, %d1
move.l %d1, %a3
moveq.l #0x20, %d6
move.l %d6, %macsr | set fractional mode for MAC
move.l #0x800000, %accext01 | acc1 = 0x00 0000 80 (for rounding)
move.l #1024<<17, %d6 | d6 & d7 are weight clipping limits
move.l #-1024<<17, %d7 | (only used by negative terms)
move.w (%a2), %d0 | d0 = term
ext.l %d0
cmp.l #17, %d0
jbeq term_17 | term = 17
cmp.l #18, %d0
jbeq term_18 | term = 18
addq.l #1, %d0
jbeq term_minus_1 | term = -1
addq.l #1, %d0
jbeq term_minus_2 | term = -2
addq.l #1, %d0
jbeq term_minus_3 | term = -3
jbra term_default | default term = 1 - 8
|------------------------------------------------------------------------------
| Loop to handle term = 17 condition
|
| a0 = d0 = (2 * bptr [-1]) - bptr [-2]
| a1 = bptr d1 = initial bptr [0]
| a2 = dpp-> d2 = updated bptr [0]
| a3 = dpp->delta << 17 d3 = dpp->weight_A << 17
| a4 = d4 = dpp->weight_B << 17
| a5 = d5 = eptr
| macsr = 0x20 acc1 = 0x00 0000 80
|------------------------------------------------------------------------------
term_17:
move.l -8(%a1), %d0 | d0 = 2 * bptr [-1] - bptr [-2]
add.l %d0, %d0
sub.l -16(%a1), %d0
beq .L251 | if zero, skip calculation
move.l %acc1, %acc0
asl.l #4, %d0 | acc0 = acc1 + (d0 << 4) * weight_A
mac.l %d0, %d3, %acc0
move.l (%a1), %d1
beq .L255
eor.l %d1, %d0 | else compare signs
bge .L256 | if same, add delta to weight
sub.l %a3, %d3 | else subtract delta from weight
sub.l %a3, %d3 | subtract again instead of branch
.L256: add.l %a3, %d3 | add delta to weight
.L255: move.l %acc0, %d2 | d2 = rounded product
add.l %d1, %d2 | update bptr [0] and store
move.l %d2, (%a1)+
.L253: move.l -8(%a1), %d0 | d0 = 2 * bptr [-1] - bptr [-2]
add.l %d0, %d0
sub.l -16(%a1), %d0
beq .L257 | if zero, skip calculations
move.l %acc1, %acc0
asl.l #4, %d0 | acc0 = acc1 + (d0 << 4) * weight_B
mac.l %d0, %d4, %acc0
move.l (%a1), %d1
beq .L254
eor.l %d1, %d0 | else compare signs
bge .L259 | if same, add delta to weight
sub.l %a3, %d4 | else subtract delta from weight
sub.l %a3, %d4 | subtract again instead of branch
.L259: add.l %a3, %d4 | add delta to weight
.L254: move.l %acc0, %d2 | d2 = rounded product
add.l %d1, %d2 | update bptr [0] and store
move.l %d2, (%a1)+
.L252: cmp.l %a1, %d5 | loop if bptr < eptr
jbhi term_17
bra term_17_18_finish | exit through common path
.L251: addq.l #4, %a1 | update point and jump back into loop
bra .L253
.L257: addq.l #4, %a1 | update point and jump back into loop
bra .L252
|------------------------------------------------------------------------------
| Loop to handle term = 18 condition
|
| a0 = d0 = ((3 * bptr [-1]) - bptr [-2]) >> 1
| a1 = bptr d1 = initial bptr [0]
| a2 = dpp-> d2 = updated bptr [0]
| a3 = dpp->delta << 17 d3 = dpp->weight_A << 17
| a4 = d4 = dpp->weight_B << 17
| a5 = d5 = eptr
| macsr = 0x20 acc1 = 0x00 0000 80
|------------------------------------------------------------------------------
term_18:
move.l -8(%a1), %a0 | d0 = (3 * bptr [-1] - bptr [-2]) >> 1
lea (%a0,%a0.l*2), %a0
move.l %a0, %d0
sub.l -16(%a1), %d0
asr.l #1, %d0
beq .L260
move.l %acc1, %acc0
asl.l #4, %d0 | acc0 = acc1 + (d0 << 4) * weight_A
mac.l %d0, %d3, %acc0
move.l (%a1), %d1
beq .L266
eor.l %d1, %d0 | else compare signs
bge .L267 | if same, add delta to weight
sub.l %a3, %d3 | else subtract delta from weight
sub.l %a3, %d3 | subtract again instead of branch
.L267: add.l %a3, %d3 | add delta to weight
.L266: move.l %acc0, %d2 | d2 = rounded product
add.l %d1, %d2 | add applied weight to bptr [0], store
move.l %d2, (%a1)+
.L268: move.l -8(%a1), %a0 | d0 = (3 * bptr [-1] - bptr [-2]) >> 1
lea (%a0,%a0.l*2), %a0
move.l %a0, %d0
sub.l -16(%a1), %d0
asr.l #1, %d0
beq .L261
move.l %acc1, %acc0
asl.l #4, %d0 | acc0 = acc1 + (d0 << 4) * weight_B
mac.l %d0, %d4, %acc0
move.l (%a1), %d1
beq .L265
eor.l %d1, %d0 | else compare signs
bge .L270 | if same, add delta to weight
sub.l %a3, %d4 | else subtract delta from weight
sub.l %a3, %d4 | subtract again instead of branch
.L270: add.l %a3, %d4 | add delta to weight
.L265: move.l %acc0, %d2 | d2 = rounded product
add.l %d1, %d2 | add applied weight to bptr [0], store
move.l %d2, (%a1)+
.L269: cmp.l %a1, %d5 | loop if bptr < eptr
jbhi term_18
bra term_17_18_finish | exit through common path
.L260: addq.l #4, %a1 | bump pointer and jump back into loop
bra .L268
.L261: addq.l #4, %a1 | bump pointer and jump back into loop
bra .L269
term_17_18_finish:
move.l -4(%a1), 40(%a2) | restore dpp->samples_A [0-1], B [0-1]
move.l -8(%a1), 8(%a2)
move.l -12(%a1), 44(%a2)
move.l -16(%a1), 12(%a2)
jbra finish_up
|------------------------------------------------------------------------------
| Loop to handle default terms (i.e. 1 - 8)
|
| a0 = tptr d0 = tptr [0]
| a1 = bptr d1 = initial bptr [0]
| a2 = dpp-> d2 = updated bptr [0]
| a3 = dpp->delta << 17 d3 = dpp->weight_A << 17
| a4 = d4 = dpp->weight_B << 17
| a5 = d5 = eptr
| macsr = 0x20 acc1 = 0x00 0000 80
|------------------------------------------------------------------------------
term_default:
move.w (%a2), %d0 | a0 = a1 - (dpp->term * 8)
ext.l %d0
lsl.l #3, %d0
move.l %a1, %a0
sub.l %d0, %a0
term_default_loop:
move.l (%a0)+, %d0 | d0 = tptr [0], skip ahead if zero
beq .L271
move.l %acc1, %acc0
asl.l #4, %d0 | acc0 = acc1 + (d0 << 4) * weight_A
mac.l %d0, %d3, %acc0
move.l (%a1), %d1
beq .L277
eor.l %d1, %d0 | else compare signs
bge .L278 | if same, add delta to weight
sub.l %a3, %d3 | else subtract delta from weight
sub.l %a3, %d3 | subtract again instead of branch
.L278: add.l %a3, %d3 | add delta to weight
.L277: move.l %acc0, %d2 | d2 = rounded product
add.l %d1, %d2 | add applied weight to bptr [0], store
move.l %d2, (%a1)+
.L275: move.l (%a0)+, %d0 | d0 = tptr [0], skip ahead if zero
beq .L272
move.l %acc1, %acc0
asl.l #4, %d0 | acc0 = acc1 + (d0 << 4) * weight_B
mac.l %d0, %d4, %acc0
move.l (%a1), %d1
beq .L276
eor.l %d1, %d0 | else compare signs
bge .L281 | if same, add delta to weight
sub.l %a3, %d4 | else subtract delta from weight
sub.l %a3, %d4 | subtract again instead of branch
.L281: add.l %a3, %d4 | add delta to weight
.L276: move.l %acc0, %d2 | d2 = rounded product
add.l %d1, %d2 | add applied weight to bptr [0], store
move.l %d2, (%a1)+
.L274: cmp.l %a1, %d5 | loop back if bptr < eptr
jbhi term_default_loop
move.w (%a2), %d0 | d0 = term - 1
moveq.l #8, %d1 | d1 = loop counter
.L323: subq.l #1, %d0 | back up & mask index
and.l #7, %d0
move.l -(%a1), 40(%a2,%d0.l*4) | store dpp->samples_B [d0]
move.l -(%a1), 8(%a2,%d0.l*4) | store dpp->samples_A [d0]
subq.l #1, %d1 | loop on count
jbne .L323
jbra finish_up
.L271: addq.l #4, %a1 | bump pointer and jump back into loop
bra .L275
.L272: addq.l #4, %a1 | bump pointer and jump back into loop
bra .L274
|------------------------------------------------------------------------------
| Loop to handle term = -1 condition
|
| a0 = d0 = decorrelation sample
| a1 = bptr d1 = initial bptr [0]
| a2 = dpp-> d2 = updated bptr [0]
| a3 = dpp->delta << 17 d3 = dpp->weight_A << 17
| a4 = d4 = dpp->weight_B << 17
| a5 = d5 = eptr
| a6 = d6 = 1024 << 17
| a7 = d7 = -1024 << 17
| macsr = 0x20 acc1 = 0x00 0000 80
|------------------------------------------------------------------------------
term_minus_1:
move.l -4(%a1), %d0 | d0 = bptr [-1]
beq .L402
move.l %acc1, %acc0
asl.l #4, %d0 | acc0 = acc1 + ((d0 << 4) * weight_A)
mac.l %d0, %d3, %acc0
move.l (%a1), %d1
beq .L405
eor.l %d1, %d0 | else compare signs
bge .L404 | if same, add delta to weight
sub.l %a3, %d3 | else subtract delta from weight
cmp.l %d7, %d3 | check for negative clip limit
bge .L405
move.l %d7, %d3
bra .L405
.L404: add.l %a3, %d3 | add delta to weight
cmp.l %d6, %d3 | check for positive clip limit
ble .L405
move.l %d6, %d3
.L405: move.l %acc0, %d0 | d2 = rounded product
add.l %d1, %d0 | add applied weight to bptr [0], store
move.l %d0, (%a1)+
beq .L401
.L410: move.l %acc1, %acc0
asl.l #4, %d0 | acc0 = acc1 + ((d0 << 4) * weight_B)
mac.l %d0, %d4, %acc0
move.l (%a1), %d1
beq .L403
eor.l %d1, %d0 | else compare signs
bge .L407 | if same, add delta to weight
sub.l %a3, %d4 | else subtract delta from weight
cmp.l %d7, %d4 | check for negative clip limit
bge .L403
move.l %d7, %d4
bra .L403
.L407: add.l %a3, %d4 | add delta to weight
cmp.l %d6, %d4 | check for positive clip limit
ble .L403
move.l %d6, %d4
.L403: move.l %acc0, %d2 | d2 = rounded product
add.l %d1, %d2 | add applied weight to bptr [1], store
move.l %d2, (%a1)+
.L411: cmp.l %a1, %d5 | loop back if bptr < eptr
jbhi term_minus_1
move.l -4(%a1), 8(%a2) | dpp->samples_A [0] = bptr [-1]
jbra finish_up
.L402: move.l (%a1)+, %d0
bne .L410
.L401: addq.l #4, %a1
bra .L411
|------------------------------------------------------------------------------
| Loop to handle term = -2 condition
|
| a0 = d0 = decorrelation sample
| a1 = bptr d1 = initial bptr [0]
| a2 = dpp-> d2 = updated bptr [0]
| a3 = dpp->delta << 17 d3 = dpp->weight_A << 17
| a4 = d4 = dpp->weight_B << 17
| a5 = d5 = eptr
| a6 = d6 = 1024 << 17
| a7 = d7 = -1024 << 17
| macsr = 0x20 acc1 = 0x00 0000 80
|------------------------------------------------------------------------------
term_minus_2:
move.l -8(%a1), %d0 | d0 = bptr [-2]
beq .L511
move.l %acc1, %acc0
asl.l #4, %d0 | acc0 = acc1 + ((d0 << 4) * weight_B)
mac.l %d0, %d4, %acc0
move.l 4(%a1), %d1
beq .L505
eor.l %d1, %d0 | else compare signs
bge .L504 | if same, add delta to weight
sub.l %a3, %d4 | else subtract delta from weight
cmp.l %d7, %d4 | ckeck for negative clip limit
bge .L505
move.l %d7, %d4
bra .L505
.L504: add.l %a3, %d4 | add delta to weight
cmp.l %d6, %d4 | check for positive clip limit
ble .L505
move.l %d6, %d4
.L505: move.l %acc0, %d0 | d2 = rounded product
add.l %d1, %d0 | add applied weight to bptr [0], store
move.l %d0, 4(%a1)
beq .L512
.L510: move.l %acc1, %acc0
asl.l #4, %d0 | acc0 = acc1 + ((d0 << 4) * weight_A)
mac.l %d0, %d3, %acc0
move.l (%a1), %d1
beq .L503
eor.l %d1, %d0 | else compare signs
bge .L507 | if same, add delta to weight
sub.l %a3, %d3 | else subtract delta from weight
cmp.l %d7, %d3 | check for negative clip limit
bge .L503
move.l %d7, %d3
bra .L503
.L507: add.l %a3, %d3 | add delta to weight
cmp.l %d6, %d3 | check for negative clip limit
ble .L503
move.l %d6, %d3
.L503: move.l %acc0, %d2 | d2 = rounded product
add.l %d1, %d2 | add applied weight to bptr [1], store
move.l %d2, (%a1)
.L512: addq.l #8, %a1
cmp.l %a1, %d5 | loop if bptr < eptr
jbhi term_minus_2
move.l -8(%a1), 40(%a2) | dpp->samples_B [0] = bptr [-4]
jbra finish_up
.L511: move.l 4(%a1), %d0
beq .L512
bra .L510
|------------------------------------------------------------------------------
| Loop to handle term = -3 condition
|
| a0 = d0 = decorrelation sample
| a1 = bptr d1 = initial bptr [0]
| a2 = dpp-> d2 = updated bptr [0]
| a3 = dpp->delta << 17 d3 = dpp->weight_A << 17
| a4 = d4 = dpp->weight_B << 17
| a5 = d5 = eptr
| a6 = d6 = 1024 << 17
| a7 = d7 = -1024 << 17
| macsr = 0x20 acc1 = 0x00 0000 80
|------------------------------------------------------------------------------
term_minus_3:
move.l -4(%a1), %d0 | d0 = bptr [-1]
beq .L301
move.l %acc1, %acc0
asl.l #4, %d0 | acc0 = acc1 + ((d0 << 4) * weight_A)
mac.l %d0, %d3, %acc0
move.l (%a1), %d1
beq .L320
eor.l %d1, %d0 | else compare signs
bge .L319 | if same, add delta to weight
sub.l %a3, %d3 | else subtract delta from weight
cmp.l %d7, %d3 | check for negative clip limit
bge .L320
move.l %d7, %d3
bra .L320
.L319: add.l %a3, %d3 | add delta to weight
cmp.l %d6, %d3 | check for positive clip limit
ble .L320
move.l %d6, %d3
.L320: move.l %acc0, %d2 | d2 = rounded product
add.l %d1, %d2 | add applied weight to bptr [0], store
move.l %d2, (%a1)+
.L330: move.l -12(%a1), %d0 | d0 = bptr [-2]
beq .L302
move.l %acc1, %acc0
asl.l #4, %d0 | acc0 = acc1 + ((d0 << 4) * weight_B)
mac.l %d0, %d4, %acc0
move.l (%a1), %d1
beq .L318
eor.l %d1, %d0 | else compare signs
bge .L322 | if same, add delta to weight
sub.l %a3, %d4 | else subtract delta from weight
cmp.l %d7, %d4 | check for negative clip limit
bge .L318
move.l %d7, %d4
bra .L318
.L322: add.l %a3, %d4 | add delta to weight
cmp.l %d6, %d4 | check for positive clip limit
ble .L318
move.l %d6, %d4
.L318: move.l %acc0, %d2 | d2 = rounded product
add.l %d1, %d2 | add applied weight to bptr [1], store
move.l %d2, (%a1)+
.L331: cmp.l %a1, %d5 | bptr, eptr
jbhi term_minus_3
move.l -4(%a1), 8(%a2) | dpp->samples_A [0] = bptr [-1]
move.l -8(%a1), 40(%a2) | dpp->samples_B [0] = bptr [-2]
jbra finish_up
.L301: addq.l #4, %a1
bra .L330
.L302: addq.l #4, %a1
bra .L331
| finish and return
finish_up:
moveq.l #17, %d0
asr.l %d0, %d3
asr.l %d0, %d4
move.w %d3, 4(%a2) | weight_A, dpp->weight_A
move.w %d4, 6(%a2) | weight_B, dpp->weight_B
clr.l %d0 | clear up EMAC
move.l %d0, %acc0
move.l %d0, %acc1
return_only:
movem.l (%sp), %d2-%d7/%a2-%a6
lea (44,%sp), %sp
rts