vpx/vp8/encoder/arm/neon/vp8_packtokens_partitions_armv7.asm

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2010-05-18 17:58:33 +02:00
;
; Copyright (c) 2010 The WebM project authors. All Rights Reserved.
2010-05-18 17:58:33 +02:00
;
; Use of this source code is governed by a BSD-style license
; that can be found in the LICENSE file in the root of the source
; tree. An additional intellectual property rights grant can be found
; in the file PATENTS. All contributing project authors may
; be found in the AUTHORS file in the root of the source tree.
2010-05-18 17:58:33 +02:00
;
EXPORT |vp8cx_pack_tokens_into_partitions_armv7|
INCLUDE vpx_vp8_enc_asm_offsets.asm
ARM
REQUIRE8
PRESERVE8
AREA |.text|, CODE, READONLY
; r0 VP8_COMP *cpi
; r1 unsigned char *cx_data
; r2 int num_part
; r3 *size
; s0 vp8_coef_encodings
; s1 vp8_extra_bits,
; s2 const vp8_tree_index *,
|vp8cx_pack_tokens_into_partitions_armv7| PROC
push {r4-r11, lr}
sub sp, sp, #44
; Compute address of cpi->common.mb_rows
ldr r4, _VP8_COMP_common_
ldr r6, _VP8_COMMON_MBrows_
add r4, r0, r4
ldr r5, [r4, r6] ; load up mb_rows
str r5, [sp, #36] ; save mb_rows
str r1, [sp, #24] ; save cx_data
str r2, [sp, #20] ; save num_part
str r3, [sp, #8] ; save *size
; *size = 3*(num_part -1 );
sub r2, r2, #1 ; num_part - 1
add r2, r2, r2, lsl #1 ; 3*(num_part - 1)
str r2, [r3]
add r2, r2, r1 ; cx_data + *size
str r2, [sp, #40] ; ptr
ldr r4, _VP8_COMP_tplist_
add r4, r0, r4
ldr r7, [r4, #0] ; dereference cpi->tp_list
str r7, [sp, #32] ; store start of cpi->tp_list
ldr r11, _VP8_COMP_bc2_ ; load up vp8_writer out of cpi
add r0, r0, r11
mov r11, #0
str r11, [sp, #28] ; i
numparts_loop
ldr r10, [sp, #40] ; ptr
ldr r5, [sp, #36] ; move mb_rows to the counting section
str r5, [sp, #12]
; Reset all of the VP8 Writer data for each partition that
; is processed.
; start_encode
mov r2, #0 ; vp8_writer_lowvalue
mov r5, #255 ; vp8_writer_range
mvn r3, #23 ; vp8_writer_count
str r2, [r0, #vp8_writer_value]
str r2, [r0, #vp8_writer_pos]
str r10, [r0, #vp8_writer_buffer]
mb_row_loop
ldr r1, [r7, #tokenlist_start]
ldr r9, [r7, #tokenlist_stop]
str r9, [sp, #0] ; save stop for later comparison
str r7, [sp, #16] ; tokenlist address for next time
b check_p_lt_stop
; actual work gets done here!
while_p_lt_stop
ldr r6, [r1, #tokenextra_token] ; t
ldr r4, [sp, #80] ; vp8_coef_encodings
mov lr, #0
add r4, r4, r6, lsl #3 ; a = vp8_coef_encodings + t
ldr r9, [r1, #tokenextra_context_tree] ; pp
ldr r7, [r1, #tokenextra_skip_eob_node]
ldr r6, [r4, #vp8_token_value] ; v
ldr r8, [r4, #vp8_token_len] ; n
; vp8 specific skip_eob_node
cmp r7, #0
movne lr, #2 ; i = 2
subne r8, r8, #1 ; --n
; reverse the stream of bits to be packed. Normally
; the most significant bit is peeled off and compared
; in the form of (v >> --n) & 1. ARM architecture has
; the ability to set a flag based on the value of the
; bit shifted off the bottom of the register. To make
; that happen the bitstream is reversed.
rbit r12, r6
rsb r4, r8, #32 ; 32-n
ldr r10, [sp, #88] ; vp8_coef_tree
; v is kept in r12 during the token pack loop
lsr r12, r12, r4 ; v >>= 32 - n
; loop start
token_loop
ldrb r4, [r9, lr, asr #1] ; pp [i>>1]
sub r7, r5, #1 ; range-1
; Decisions are made based on the bit value shifted
; off of v, so set a flag here based on this.
; This value is refered to as "bb"
lsrs r12, r12, #1 ; bb = v >> n
mul r4, r4, r7 ; ((range-1) * pp[i>>1]))
; bb can only be 0 or 1. So only execute this statement
; if bb == 1, otherwise it will act like i + 0
addcs lr, lr, #1 ; i + bb
mov r7, #1
ldrsb lr, [r10, lr] ; i = vp8_coef_tree[i+bb]
add r4, r7, r4, lsr #8 ; 1 + (((range-1) * pp[i>>1]) >> 8)
addcs r2, r2, r4 ; if (bb) lowvalue += split
subcs r4, r5, r4 ; if (bb) range = range-split
; Counting the leading zeros is used to normalize range.
clz r6, r4
sub r6, r6, #24 ; shift
; Flag is set on the sum of count. This flag is used later
; to determine if count >= 0
adds r3, r3, r6 ; count += shift
lsl r5, r4, r6 ; range <<= shift
bmi token_count_lt_zero ; if(count >= 0)
sub r6, r6, r3 ; offset = shift - count
sub r4, r6, #1 ; offset-1
lsls r4, r2, r4 ; if((lowvalue<<(offset-1)) & 0x80000000 )
bpl token_high_bit_not_set
ldr r4, [r0, #vp8_writer_pos] ; x
sub r4, r4, #1 ; x = w->pos-1
b token_zero_while_start
token_zero_while_loop
mov r10, #0
strb r10, [r7, r4] ; w->buffer[x] =(unsigned char)0
sub r4, r4, #1 ; x--
token_zero_while_start
cmp r4, #0
ldrge r7, [r0, #vp8_writer_buffer]
ldrb r11, [r7, r4]
cmpge r11, #0xff
beq token_zero_while_loop
ldr r7, [r0, #vp8_writer_buffer]
ldrb r10, [r7, r4] ; w->buffer[x]
add r10, r10, #1
strb r10, [r7, r4] ; w->buffer[x] + 1
token_high_bit_not_set
rsb r4, r6, #24 ; 24-offset
ldr r10, [r0, #vp8_writer_buffer]
lsr r7, r2, r4 ; lowvalue >> (24-offset)
ldr r4, [r0, #vp8_writer_pos] ; w->pos
lsl r2, r2, r6 ; lowvalue <<= offset
mov r6, r3 ; shift = count
add r11, r4, #1 ; w->pos++
bic r2, r2, #0xff000000 ; lowvalue &= 0xffffff
str r11, [r0, #vp8_writer_pos]
sub r3, r3, #8 ; count -= 8
strb r7, [r10, r4] ; w->buffer[w->pos++]
; r10 is used earlier in the loop, but r10 is used as
; temp variable here. So after r10 is used, reload
; vp8_coef_tree_dcd into r10
ldr r10, [sp, #88] ; vp8_coef_tree
token_count_lt_zero
lsl r2, r2, r6 ; lowvalue <<= shift
subs r8, r8, #1 ; --n
bne token_loop
ldr r6, [r1, #tokenextra_token] ; t
ldr r7, [sp, #84] ; vp8_extra_bits
; Add t * sizeof (vp8_extra_bit_struct) to get the desired
; element. Here vp8_extra_bit_struct == 20
add r6, r6, r6, lsl #2 ; b = vp8_extra_bits + t
add r12, r7, r6, lsl #2 ; b = vp8_extra_bits + t
ldr r4, [r12, #vp8_extra_bit_struct_base_val]
cmp r4, #0
beq skip_extra_bits
; if( b->base_val)
ldr r8, [r12, #vp8_extra_bit_struct_len] ; L
ldr lr, [r1, #tokenextra_extra] ; e = p->Extra
cmp r8, #0 ; if( L)
beq no_extra_bits
ldr r9, [r12, #vp8_extra_bit_struct_prob]
asr r7, lr, #1 ; v=e>>1
ldr r10, [r12, #vp8_extra_bit_struct_tree]
str r10, [sp, #4] ; b->tree
rbit r12, r7 ; reverse v
rsb r4, r8, #32
lsr r12, r12, r4
mov lr, #0 ; i = 0
extra_bits_loop
ldrb r4, [r9, lr, asr #1] ; pp[i>>1]
sub r7, r5, #1 ; range-1
lsrs r12, r12, #1 ; v >> n
mul r4, r4, r7 ; (range-1) * pp[i>>1]
addcs lr, lr, #1 ; i + bb
mov r7, #1
ldrsb lr, [r10, lr] ; i = b->tree[i+bb]
add r4, r7, r4, lsr #8 ; split = 1 + (((range-1) * pp[i>>1]) >> 8)
addcs r2, r2, r4 ; if (bb) lowvalue += split
subcs r4, r5, r4 ; if (bb) range = range-split
clz r6, r4
sub r6, r6, #24
adds r3, r3, r6 ; count += shift
lsl r5, r4, r6 ; range <<= shift
bmi extra_count_lt_zero ; if(count >= 0)
sub r6, r6, r3 ; offset= shift - count
sub r4, r6, #1 ; offset-1
lsls r4, r2, r4 ; if((lowvalue<<(offset-1)) & 0x80000000 )
bpl extra_high_bit_not_set
ldr r4, [r0, #vp8_writer_pos] ; x
sub r4, r4, #1 ; x = w->pos - 1
b extra_zero_while_start
extra_zero_while_loop
mov r10, #0
strb r10, [r7, r4] ; w->buffer[x] =(unsigned char)0
sub r4, r4, #1 ; x--
extra_zero_while_start
cmp r4, #0
ldrge r7, [r0, #vp8_writer_buffer]
ldrb r11, [r7, r4]
cmpge r11, #0xff
beq extra_zero_while_loop
ldr r7, [r0, #vp8_writer_buffer]
ldrb r10, [r7, r4]
add r10, r10, #1
strb r10, [r7, r4]
extra_high_bit_not_set
rsb r4, r6, #24 ; 24-offset
ldr r10, [r0, #vp8_writer_buffer]
lsr r7, r2, r4 ; lowvalue >> (24-offset)
ldr r4, [r0, #vp8_writer_pos]
lsl r2, r2, r6 ; lowvalue <<= offset
mov r6, r3 ; shift = count
add r11, r4, #1 ; w->pos++
bic r2, r2, #0xff000000 ; lowvalue &= 0xffffff
str r11, [r0, #vp8_writer_pos]
sub r3, r3, #8 ; count -= 8
strb r7, [r10, r4] ; w->buffer[w->pos++]=(lowvalue >> (24-offset))
ldr r10, [sp, #4] ; b->tree
extra_count_lt_zero
lsl r2, r2, r6
subs r8, r8, #1 ; --n
bne extra_bits_loop ; while (n)
no_extra_bits
ldr lr, [r1, #4] ; e = p->Extra
add r4, r5, #1 ; range + 1
tst lr, #1
lsr r4, r4, #1 ; split = (range + 1) >> 1
addne r2, r2, r4 ; lowvalue += split
subne r4, r5, r4 ; range = range-split
tst r2, #0x80000000 ; lowvalue & 0x80000000
lsl r5, r4, #1 ; range <<= 1
beq end_high_bit_not_set
ldr r4, [r0, #vp8_writer_pos]
mov r7, #0
sub r4, r4, #1
b end_zero_while_start
end_zero_while_loop
strb r7, [r6, r4]
sub r4, r4, #1 ; x--
end_zero_while_start
cmp r4, #0
ldrge r6, [r0, #vp8_writer_buffer]
ldrb r12, [r6, r4]
cmpge r12, #0xff
beq end_zero_while_loop
ldr r6, [r0, #vp8_writer_buffer]
ldrb r7, [r6, r4]
add r7, r7, #1
strb r7, [r6, r4]
end_high_bit_not_set
adds r3, r3, #1 ; ++count
lsl r2, r2, #1 ; lowvalue <<= 1
bne end_count_zero
ldr r4, [r0, #vp8_writer_pos]
mvn r3, #7
ldr r7, [r0, #vp8_writer_buffer]
lsr r6, r2, #24 ; lowvalue >> 24
add r12, r4, #1 ; w->pos++
bic r2, r2, #0xff000000 ; lowvalue &= 0xffffff
str r12, [r0, #0x10]
strb r6, [r7, r4]
end_count_zero
skip_extra_bits
add r1, r1, #TOKENEXTRA_SZ ; ++p
check_p_lt_stop
ldr r4, [sp, #0] ; stop
cmp r1, r4 ; while( p < stop)
bcc while_p_lt_stop
ldr r10, [sp, #20] ; num_parts
mov r1, #TOKENLIST_SZ
mul r1, r10, r1
ldr r6, [sp, #12] ; mb_rows
ldr r7, [sp, #16] ; tokenlist address
subs r6, r6, r10
add r7, r7, r1 ; next element in the array
str r6, [sp, #12]
bgt mb_row_loop
mov r12, #32
stop_encode_loop
sub r7, r5, #1 ; range-1
mov r4, r7, lsl #7 ; ((range-1) * 128)
mov r7, #1
add r4, r7, r4, lsr #8 ; 1 + (((range-1) * 128) >> 8)
; Counting the leading zeros is used to normalize range.
clz r6, r4
sub r6, r6, #24 ; shift
; Flag is set on the sum of count. This flag is used later
; to determine if count >= 0
adds r3, r3, r6 ; count += shift
lsl r5, r4, r6 ; range <<= shift
bmi token_count_lt_zero_se ; if(count >= 0)
sub r6, r6, r3 ; offset = shift - count
sub r4, r6, #1 ; offset-1
lsls r4, r2, r4 ; if((lowvalue<<(offset-1)) & 0x80000000 )
bpl token_high_bit_not_set_se
ldr r4, [r0, #vp8_writer_pos] ; x
sub r4, r4, #1 ; x = w->pos-1
b token_zero_while_start_se
token_zero_while_loop_se
mov r10, #0
strb r10, [r7, r4] ; w->buffer[x] =(unsigned char)0
sub r4, r4, #1 ; x--
token_zero_while_start_se
cmp r4, #0
ldrge r7, [r0, #vp8_writer_buffer]
ldrb r11, [r7, r4]
cmpge r11, #0xff
beq token_zero_while_loop_se
ldr r7, [r0, #vp8_writer_buffer]
ldrb r10, [r7, r4] ; w->buffer[x]
add r10, r10, #1
strb r10, [r7, r4] ; w->buffer[x] + 1
token_high_bit_not_set_se
rsb r4, r6, #24 ; 24-offset
ldr r10, [r0, #vp8_writer_buffer]
lsr r7, r2, r4 ; lowvalue >> (24-offset)
ldr r4, [r0, #vp8_writer_pos] ; w->pos
lsl r2, r2, r6 ; lowvalue <<= offset
mov r6, r3 ; shift = count
add r11, r4, #1 ; w->pos++
bic r2, r2, #0xff000000 ; lowvalue &= 0xffffff
str r11, [r0, #vp8_writer_pos]
sub r3, r3, #8 ; count -= 8
strb r7, [r10, r4] ; w->buffer[w->pos++]
token_count_lt_zero_se
lsl r2, r2, r6 ; lowvalue <<= shift
subs r12, r12, #1
bne stop_encode_loop
ldr r10, [sp, #8] ; *size
ldr r11, [r10]
ldr r4, [r0, #vp8_writer_pos] ; w->pos
add r11, r11, r4 ; *size += w->pos
str r11, [r10]
ldr r9, [sp, #20] ; num_parts
sub r9, r9, #1
ldr r10, [sp, #28] ; i
cmp r10, r9 ; if(i<(num_part - 1))
bge skip_write_partition
ldr r12, [sp, #40] ; ptr
add r12, r12, r4 ; ptr += w->pos
str r12, [sp, #40]
ldr r9, [sp, #24] ; cx_data
mov r8, r4, asr #8
strb r4, [r9, #0]
strb r8, [r9, #1]
mov r4, r4, asr #16
strb r4, [r9, #2]
add r9, r9, #3 ; cx_data += 3
str r9, [sp, #24]
skip_write_partition
ldr r11, [sp, #28] ; i
ldr r10, [sp, #20] ; num_parts
add r11, r11, #1 ; i++
str r11, [sp, #28]
ldr r7, [sp, #32] ; cpi->tp_list[i]
mov r1, #TOKENLIST_SZ
add r7, r7, r1 ; next element in cpi->tp_list
str r7, [sp, #32] ; cpi->tp_list[i+1]
cmp r10, r11
bgt numparts_loop
add sp, sp, #44
pop {r4-r11, pc}
ENDP
_VP8_COMP_common_
DCD vp8_comp_common
_VP8_COMMON_MBrows_
DCD vp8_common_mb_rows
_VP8_COMP_tplist_
DCD vp8_comp_tplist
_VP8_COMP_bc2_
DCD vp8_comp_bc2
END