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@/*****************************************************************************
@*
@* Copyright (C) 2012 Ittiam Systems Pvt Ltd, Bangalore
@*
@* Licensed under the Apache License, Version 2.0 (the "License");
@* you may not use this file except in compliance with the License.
@* You may obtain a copy of the License at:
@*
@* http://www.apache.org/licenses/LICENSE-2.0
@*
@* Unless required by applicable law or agreed to in writing, software
@* distributed under the License is distributed on an "AS IS" BASIS,
@* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
@* See the License for the specific language governing permissions and
@* limitations under the License.
@*
@*****************************************************************************/
@/**
@*******************************************************************************
@* ,:file
@* ihevc_sao_edge_offset_class0_chroma.s
@*
@* ,:brief
@* Contains function definitions for inter prediction interpolation.
@* Functions are coded using NEON intrinsics and can be compiled using@ ARM
@* RVCT
@*
@* ,:author
@* Parthiban V
@*
@* ,:par List of Functions:
@*
@*
@* ,:remarks
@* None
@*
@*******************************************************************************
@*/
@void ihevc_sao_edge_offset_class0_chroma(UWORD8 *pu1_src,
@ WORD32 src_strd,
@ UWORD8 *pu1_src_left,
@ UWORD8 *pu1_src_top,
@ UWORD8 *pu1_src_top_left,
@ UWORD8 *pu1_src_top_right,
@ UWORD8 *pu1_src_bot_left,
@ UWORD8 *pu1_avail,
@ WORD8 *pi1_sao_offset_u,
@ WORD8 *pi1_sao_offset_v,
@ WORD32 wd,
@
@**************Variables Vs Registers*****************************************
@r0 => *pu1_src
@r1 => src_strd
@r2 => *pu1_src_left
@r3 => *pu1_src_top
@r4 => *pu1_src_top_left
@r7 => *pu1_avail
@r8 => *pi1_sao_offset_u
@r5 => *pi1_sao_offset_v
@r9 => wd
@r10=> ht
.text
.p2align 2
.extern gi1_table_edge_idx
.globl ihevc_sao_edge_offset_class0_chroma_a9q
gi1_table_edge_idx_addr:
.long gi1_table_edge_idx - ulbl1 - 8
ihevc_sao_edge_offset_class0_chroma_a9q:
STMFD sp!, {r4-r12, r14} @stack stores the values of the arguments
LDR r9,[sp,#64] @Loads wd
LDR r4,[sp,#40] @Loads pu1_src_top_left
ADD r11,r3,r9 @pu1_src_top[wd]
LDR r10,[sp,#68] @Loads ht
VMOV.I8 Q1,#2 @const_2 = vdupq_n_s8(2)
LDRH r12,[r11,#-2] @pu1_src_top[wd - 1]
LDR r7,[sp,#52] @Loads pu1_avail
VMOV.I16 Q2,#0 @const_min_clip = vdupq_n_s16(0)
STRH r12,[r4] @*pu1_src_top_left = pu1_src_top[wd - 1]
LDR r8,[sp,#56] @Loads pi1_sao_offset_u
VMOV.I16 Q3,#255 @const_max_clip = vdupq_n_u16((1 << bit_depth) - 1)
SUB r4,r10,#1 @(ht - 1)
LDR r14, gi1_table_edge_idx_addr @table pointer
ulbl1:
add r14,r14,pc
VMOV.S8 Q4,#0xFF @au1_mask = vdupq_n_s8(-1)
MUL r4,r4,r1 @(ht - 1) * src_strd
LDR r5,[sp,#60] @Loads pi1_sao_offset_v
VLD1.8 D11,[r8] @offset_tbl = vld1_s8(pi1_sao_offset_u)
ADD r4,r4,r0 @pu1_src[(ht - 1) * src_strd]
MOV r6,r0 @pu1_src_org
VLD1.8 D10,[r14] @edge_idx_tbl = vld1_s8(gi1_table_edge_idx)
MOV r12,r9 @Move wd to r12 for loop count
SRC_TOP_LOOP: @wd is always multiple of 8
VLD1.8 D0,[r4]! @Load pu1_src[(ht - 1) * src_strd + col]
SUBS r12,r12,#8 @Decrement the loop counter by 8
VST1.8 D0,[r3]! @Store to pu1_src_top[col]
BNE SRC_TOP_LOOP
ADD r6,r6,#14 @pu1_src_org[14]
MOV r3,r2 @pu1_src_left backup to reload later
VLD1.8 D0,[r5] @offset_tbl = vld1_s8(pi1_sao_offset_v)
CMP r9,#16 @Compare wd with 16
BLT WIDTH_RESIDUE @If not jump to WIDTH_RESIDUE where loop is unrolled for 8 case
MOV r8,r9 @move wd to r8 for loop count
WIDTH_LOOP_16:
CMP r8,r9 @if(col == wd)
BNE AU1_MASK_FF @jump to else part
LDRB r12,[r7] @pu1_avail[0]
VMOV.8 D8[0],r12 @vsetq_lane_s8(pu1_avail[0], au1_mask, 0)
VMOV.8 D8[1],r12 @vsetq_lane_s8(pu1_avail[0], au1_mask, 1)
B SKIP_AU1_MASK_FF @Skip the else part
AU1_MASK_FF:
MOV r12,#-1 @move -1 to r12
VMOV.16 D8[0],r12 @au1_mask = vsetq_lane_s8(-1, au1_mask, 0)
SKIP_AU1_MASK_FF:
CMP r8,#16 @If col == 16
BNE SKIP_MASKING_IF_NOT16 @If not skip masking
LDRB r12,[r7,#1] @pu1_avail[1]
VMOV.8 D9[6],r12 @au1_mask = vsetq_lane_s8(pu1_avail[1], au1_mask, 14)
VMOV.8 D9[7],r12 @au1_mask = vsetq_lane_s8(pu1_avail[1], au1_mask, 15)
SKIP_MASKING_IF_NOT16:
MOV r12,r0 @pu1_src_cpy = pu1_src
MOV r4,r10 @move ht to r4 for loop count
PU1_SRC_LOOP:
LDRH r11,[r2] @load pu1_src_left since ht - row =0 when it comes first pu1_src_left is incremented later
VLD1.8 D12,[r12]! @pu1_cur_row = vld1q_u8(pu1_src_cpy)
VLD1.8 D13,[r12],r1 @pu1_cur_row = vld1q_u8(pu1_src_cpy)
SUB r12,#8
SUB r5,r9,r8 @wd - col
SUB r14,r10,r4 @ht - row
VMOV.16 D15[3],r11 @vsetq_lane_u16(pu1_src_left[ht - row], pu1_cur_row_tmp, 14,15)
MUL r14,r14,r1 @(ht - row) * src_strd
VLD1.8 D30,[r12]! @II Iteration pu1_cur_row = vld1q_u8(pu1_src_cpy)
VLD1.8 D31,[r12] @II Iteration pu1_cur_row = vld1q_u8(pu1_src_cpy)
SUB r12,#8
VEXT.8 Q7,Q7,Q6,#14 @pu1_cur_row_tmp = vextq_u8(pu1_cur_row_tmp, pu1_cur_row, 14)
SUB r12,r12,r1
LDRH r11,[r2,#2] @II load pu1_src_left since ht - row =0
VCGT.U8 Q8,Q6,Q7 @vcgtq_u8(pu1_cur_row, pu1_cur_row_tmp)
ADD r5,r14,r5 @(ht - row) * src_strd + (wd - col)
VMOV.16 D29[3],r11 @II vsetq_lane_u16(pu1_src_left[ht - row], pu1_cur_row_tmp, 14,15)
VCLT.U8 Q9,Q6,Q7 @vcltq_u8(pu1_cur_row, pu1_cur_row_tmp)
LDRH r14,[r6,r5] @pu1_src_org[(ht - row) * src_strd + 14 + (wd - col)]
VSUB.U8 Q10,Q9,Q8 @sign_left = vreinterpretq_s8_u8(vsubq_u8(cmp_lt, cmp_gt))
SUB r4,r4,#1
LDRB r11,[r12,#16] @pu1_src_cpy[16]
VEXT.8 Q14,Q14,Q15,#14 @II pu1_cur_row_tmp = vextq_u8(pu1_cur_row_tmp, pu1_cur_row, 14)
VMOV.8 D14[0],r11 @pu1_cur_row_tmp = vsetq_lane_u8(pu1_src_cpy[16], pu1_cur_row_tmp, 0)
VCGT.U8 Q13,Q15,Q14 @II vcgtq_u8(pu1_cur_row, pu1_cur_row_tmp)
LDRB r11,[r12,#17] @pu1_src_cpy[17]
VCLT.U8 Q12,Q15,Q14 @II vcltq_u8(pu1_cur_row, pu1_cur_row_tmp)
STRH r14,[r2],#2 @pu1_src_left[(ht - row)] = au1_src_left_tmp[(ht - row)]
ADD r12,r12,r1
VMOV.8 D14[1],r11 @pu1_cur_row_tmp = vsetq_lane_u8(pu1_src_cpy[17], pu1_cur_row_tmp, 1)
LDRB r11,[r12,#16] @II pu1_src_cpy[16]
VEXT.8 Q7,Q6,Q7,#2 @pu1_cur_row_tmp = vextq_u8(pu1_cur_row, pu1_cur_row_tmp, 2)
VMOV.8 D28[0],r11 @II pu1_cur_row_tmp = vsetq_lane_u8(pu1_src_cpy[16], pu1_cur_row_tmp, 0)
LDRB r11,[r12,#17] @II pu1_src_cpy[17]
VCGT.U8 Q8,Q6,Q7 @vcgtq_u8(pu1_cur_row, pu1_cur_row_tmp)
SUB r12,r12,r1
VCLT.U8 Q9,Q6,Q7 @vcltq_u8(pu1_cur_row, pu1_cur_row_tmp)
VMOV.8 D28[1],r11 @II pu1_cur_row_tmp = vsetq_lane_u8(pu1_src_cpy[17], pu1_cur_row_tmp, 1)
VSUB.U8 Q11,Q9,Q8 @sign_right = vreinterpretq_s8_u8(vsubq_u8(cmp_lt, cmp_gt))
VEXT.8 Q14,Q15,Q14,#2 @II pu1_cur_row_tmp = vextq_u8(pu1_cur_row, pu1_cur_row_tmp, 2)
VADD.U8 Q7,Q1,Q10 @edge_idx = vaddq_s8(const_2, sign_left)
VADD.U8 Q7,Q7,Q11 @edge_idx = vaddq_s8(edge_idx, sign_right)
VTBL.8 D14,{D10},D14 @vtbl1_s8(edge_idx_tbl, vget_low_s8(edge_idx))
VSUB.U8 Q10,Q12,Q13 @II sign_left = vreinterpretq_s8_u8(vsubq_u8(cmp_lt, cmp_gt))
VCGT.U8 Q13,Q15,Q14 @II vcgtq_u8(pu1_cur_row, pu1_cur_row_tmp)
VTBL.8 D15,{D10},D15 @vtbl1_s8(edge_idx_tbl, vget_high_s8(edge_idx))
VCLT.U8 Q12,Q15,Q14 @II vcltq_u8(pu1_cur_row, pu1_cur_row_tmp)
VAND Q7,Q7,Q4 @edge_idx = vandq_s8(edge_idx, au1_mask)
VUZP.8 D14,D15
VSUB.U8 Q11,Q12,Q13 @II sign_right = vreinterpretq_s8_u8(vsubq_u8(cmp_lt, cmp_gt))
VTBL.8 D16,{D11},D14 @offset = vtbl1_s8(offset_tbl_u, vget_low_s8(edge_idx))
VADD.U8 Q12,Q1,Q10 @II edge_idx = vaddq_s8(const_2, sign_left)
VMOVL.U8 Q9,D12 @pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vmovl_u8(vget_low_u8(pu1_cur_row)))
VTBL.8 D17,{D0},D15
VADD.U8 Q12,Q12,Q11 @II edge_idx = vaddq_s8(edge_idx, sign_right)
VZIP.S8 D16,D17
VTBL.8 D24,{D10},D24 @II vtbl1_s8(edge_idx_tbl, vget_low_s8(edge_idx))
VMOVL.U8 Q6,D13 @pi2_tmp_cur_row.val[1] = vreinterpretq_s16_u16(vmovl_u8(vget_high_u8(pu1_cur_row)))
VADDW.S8 Q9,Q9,D16 @pi2_tmp_cur_row.val[0] = vaddw_s8(pi2_tmp_cur_row.val[0], offset)
VTBL.8 D25,{D10},D25 @II vtbl1_s8(edge_idx_tbl, vget_high_s8(edge_idx))
VMAX.S16 Q9,Q9,Q2 @pi2_tmp_cur_row.val[0] = vmaxq_s16(pi2_tmp_cur_row.val[0], const_min_clip)
VAND Q12,Q12,Q4 @II edge_idx = vandq_s8(edge_idx, au1_mask)
VMIN.U16 Q9,Q9,Q3 @pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vminq_u16(vreinterpretq_u16_s16(pi2_tmp_cur_row.val[0]), const_max_clip))
VUZP.8 D24,D25 @II
VADDW.S8 Q6,Q6,D17 @pi2_tmp_cur_row.val[1] = vaddw_s8(pi2_tmp_cur_row.val[1], offset)
VTBL.8 D26,{D11},D24 @II offset = vtbl1_s8(offset_tbl_u, vget_low_s8(edge_idx))
VMAX.S16 Q6,Q6,Q2 @pi2_tmp_cur_row.val[1] = vmaxq_s16(pi2_tmp_cur_row.val[1], const_min_clip)
VMIN.U16 Q6,Q6,Q3 @pi2_tmp_cur_row.val[1] = vreinterpretq_s16_u16(vminq_u16(vreinterpretq_u16_s16(pi2_tmp_cur_row.val[1]), const_max_clip))
VTBL.8 D27,{D0},D25 @II
VMOVN.I16 D14,Q9 @vmovn_s16(pi2_tmp_cur_row.val[0])
VMOVN.I16 D15,Q6 @vmovn_s16(pi2_tmp_cur_row.val[1])
VZIP.S8 D26,D27 @II
SUB r5,r9,r8 @II wd - col
VMOVL.U8 Q14,D30 @II pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vmovl_u8(vget_low_u8(pu1_cur_row)))
SUB r14,r10,r4 @II ht - row
MUL r14,r14,r1 @II (ht - row) * src_strd
VADDW.S8 Q14,Q14,D26 @II pi2_tmp_cur_row.val[0] = vaddw_s8(pi2_tmp_cur_row.val[0], offset)
ADD r5,r14,r5 @II (ht - row) * src_strd + (wd - col)
LDRH r14,[r6,r5] @II pu1_src_org[(ht - row) * src_strd + 14 + (wd - col)]
VMAX.S16 Q14,Q14,Q2 @II pi2_tmp_cur_row.val[0] = vmaxq_s16(pi2_tmp_cur_row.val[0], const_min_clip)
STRH r14,[r2],#2 @II pu1_src_left[(ht - row)] = au1_src_left_tmp[(ht - row)]
VMIN.U16 Q14,Q14,Q3 @II pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vminq_u16(vreinterpretq_u16_s16(pi2_tmp_cur_row.val[0]), const_max_clip))
VMOVL.U8 Q15,D31 @II pi2_tmp_cur_row.val[1] = vreinterpretq_s16_u16(vmovl_u8(vget_high_u8(pu1_cur_row)))
VADDW.S8 Q15,Q15,D27 @II pi2_tmp_cur_row.val[1] = vaddw_s8(pi2_tmp_cur_row.val[1], offset)
VST1.8 {D14,D15},[r12],r1 @vst1q_u8(pu1_src_cpy, pu1_cur_row)
VMAX.S16 Q15,Q15,Q2 @II pi2_tmp_cur_row.val[1] = vmaxq_s16(pi2_tmp_cur_row.val[1], const_min_clip)
SUBS r4,r4,#1 @Decrement row by 1
VMIN.U16 Q15,Q15,Q3 @II pi2_tmp_cur_row.val[1] = vreinterpretq_s16_u16(vminq_u16(vreinterpretq_u16_s16(pi2_tmp_cur_row.val[1]), const_max_clip))
VMOVN.I16 D28,Q14 @II vmovn_s16(pi2_tmp_cur_row.val[0])
VMOVN.I16 D29,Q15 @II vmovn_s16(pi2_tmp_cur_row.val[1])
VST1.8 {D28,D29},[r12],r1 @II vst1q_u8(pu1_src_cpy, pu1_cur_row)
BNE PU1_SRC_LOOP @If not equal jump to the inner loop
ADD r0,r0,#16 @pu1_src += 16
SUBS r8,r8,#16 @Decrement column by 16
CMP r8,#8 @Check whether residue remains
MOV r2,r3 @Reload pu1_src_left
BEQ WIDTH_RESIDUE @If residue remains jump to residue loop
BGT WIDTH_LOOP_16 @If not equal jump to width_loop
BLT END_LOOPS @Jump to end function
WIDTH_RESIDUE:
SUB r6,r6,#14
AND r8,r9,#0xF @wd_rem = wd & 0xF
CMP r8,#0 @Residue check
BEQ END_LOOPS @No Residue jump to end function
CMP r8,r9 @if(wd_rem == wd)
BNE AU1_MASK_FF_RESIDUE @jump to else part
LDRB r12,[r7] @pu1_avail[0]
VMOV.8 D8[0],r12 @vsetq_lane_s8(pu1_avail[0], au1_mask, 0)
VMOV.8 D8[1],r12 @vsetq_lane_s8(pu1_avail[0], au1_mask, 0)
B SKIP_AU1_MASK_FF_RESIDUE @Skip the else part
AU1_MASK_FF_RESIDUE:
MOV r12,#-1 @move -1 to r12
VMOV.16 D8[0],r12 @au1_mask = vsetq_lane_s8(-1, au1_mask, 0)
SKIP_AU1_MASK_FF_RESIDUE:
LDRB r12,[r7,#1] @pu1_avail[1]
VMOV.8 D8[6],r12 @au1_mask = vsetq_lane_s8(pu1_avail[1], au1_mask, 15)
VMOV.8 D8[7],r12 @au1_mask = vsetq_lane_s8(pu1_avail[1], au1_mask, 15)
MOV r12,r0 @pu1_src_cpy = pu1_src
MOV r4,r10 @move ht to r4 for loop count
PU1_SRC_LOOP_RESIDUE:
LDRH r11,[r2] @load pu1_src_left
VLD1.8 D12,[r12]! @pu1_cur_row = vld1q_u8(pu1_src_cpy)
VLD1.8 D13,[r12],r1 @pu1_cur_row = vld1q_u8(pu1_src_cpy)
SUB r12,#8
SUB r5,r9,#2 @wd - 2
SUB r14,r10,r4 @(ht - row)
VMOV.16 D15[3],r11 @vsetq_lane_u8(pu1_src_left[ht - row], pu1_cur_row_tmp, 15)
LSL r14,r14,#1 @(ht - row) * 2
VLD1.8 D30,[r12]! @II pu1_cur_row = vld1q_u8(pu1_src_cpy)
VLD1.8 D31,[r12] @II pu1_cur_row = vld1q_u8(pu1_src_cpy)
SUB r12,#8
VEXT.8 Q7,Q7,Q6,#14 @pu1_cur_row_tmp = vextq_u8(pu1_cur_row_tmp, pu1_cur_row, 15)
SUB r12,r12,r1
LDRH r11,[r2,#2] @II load pu1_src_left
VCGT.U8 Q8,Q6,Q7 @vcgtq_u8(pu1_cur_row, pu1_cur_row_tmp)
MUL r14,r14,r1 @(ht - row) * 2 * src_strd
VCLT.U8 Q9,Q6,Q7 @vcltq_u8(pu1_cur_row, pu1_cur_row_tmp)
VMOV.16 D29[3],r11 @II vsetq_lane_u8(pu1_src_left[ht - row], pu1_cur_row_tmp, 15)
LDRB r11,[r12,#16] @pu1_src_cpy[16]
VSUB.U8 Q10,Q9,Q8 @sign_left = vreinterpretq_s8_u8(vsubq_u8(cmp_lt, cmp_gt))
ADD r5,r14,r5 @(ht - row) * 2 * src_strd + (wd - 2)
VMOV.8 D14[0],r11 @pu1_cur_row_tmp = vsetq_lane_u8(pu1_src_cpy[16], pu1_cur_row_tmp, 0)
VEXT.8 Q14,Q14,Q15,#14 @II pu1_cur_row_tmp = vextq_u8(pu1_cur_row_tmp, pu1_cur_row, 15)
LDRB r11,[r12,#17] @pu1_src_cpy[17]
VCGT.U8 Q13,Q15,Q14 @II vcgtq_u8(pu1_cur_row, pu1_cur_row_tmp)
LDRH r14,[r6, r5] @pu1_src_org[(ht - row) * 2* src_strd + (wd - 2)]
VMOV.8 D14[1],r11 @pu1_cur_row_tmp = vsetq_lane_u8(pu1_src_cpy[17], pu1_cur_row_tmp, 1)
VCLT.U8 Q12,Q15,Q14 @II vcltq_u8(pu1_cur_row, pu1_cur_row_tmp)
ADD r12,r12,r1
STRH r14,[r2],#2 @pu1_src_left[(ht - row) * 2] = au1_src_left_tmp[(ht - row) * 2]
VEXT.8 Q7,Q6,Q7,#2 @pu1_cur_row_tmp = vextq_u8(pu1_cur_row, pu1_cur_row_tmp, 1)
LDRB r11,[r12,#16] @II pu1_src_cpy[16]
VCGT.U8 Q8,Q6,Q7 @vcgtq_u8(pu1_cur_row, pu1_cur_row_tmp)
VMOV.8 D28[0],r11 @II pu1_cur_row_tmp = vsetq_lane_u8(pu1_src_cpy[16], pu1_cur_row_tmp, 0)
LDRB r11,[r12,#17] @II pu1_src_cpy[17]
VCLT.U8 Q9,Q6,Q7 @vcltq_u8(pu1_cur_row, pu1_cur_row_tmp)
SUB r4,r4,#1 @II Decrement row by 1
VSUB.U8 Q11,Q9,Q8 @sign_right = vreinterpretq_s8_u8(vsubq_u8(cmp_lt, cmp_gt))
VMOV.8 D28[1],r11 @II pu1_cur_row_tmp = vsetq_lane_u8(pu1_src_cpy[17], pu1_cur_row_tmp, 1)
SUB r12,r12,r1
VADD.U8 Q7,Q1,Q10 @edge_idx = vaddq_s8(const_2, sign_left)
VEXT.8 Q14,Q15,Q14,#2 @II pu1_cur_row_tmp = vextq_u8(pu1_cur_row, pu1_cur_row_tmp, 1)
VADD.U8 Q7,Q7,Q11 @edge_idx = vaddq_s8(edge_idx, sign_right)
VSUB.U8 Q10,Q12,Q13 @II sign_left = vreinterpretq_s8_u8(vsubq_u8(cmp_lt, cmp_gt))
VTBL.8 D14,{D10},D14 @vtbl1_s8(edge_idx_tbl, vget_low_s8(edge_idx))
VCGT.U8 Q13,Q15,Q14 @II vcgtq_u8(pu1_cur_row, pu1_cur_row_tmp)
VCLT.U8 Q12,Q15,Q14 @II vcltq_u8(pu1_cur_row, pu1_cur_row_tmp)
VTBL.8 D15,{D10},D15 @vtbl1_s8(edge_idx_tbl, vget_high_s8(edge_idx))
VSUB.U8 Q11,Q12,Q13 @II sign_right = vreinterpretq_s8_u8(vsubq_u8(cmp_lt, cmp_gt))
VAND Q7,Q7,Q4 @edge_idx = vandq_s8(edge_idx, au1_mask)
VUZP.8 D14,D15
VADD.U8 Q14,Q1,Q10 @II edge_idx = vaddq_s8(const_2, sign_left)
VTBL.8 D16,{D11},D14 @offset = vtbl1_s8(offset_tbl_u, vget_low_s8(edge_idx))
VADD.U8 Q14,Q14,Q11 @II edge_idx = vaddq_s8(edge_idx, sign_right)
VMOVL.U8 Q9,D12 @pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vmovl_u8(vget_low_u8(pu1_cur_row)))
VTBL.8 D17,{D0},D15
VMOVL.U8 Q12,D30 @II pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vmovl_u8(vget_low_u8(pu1_cur_row)))
VZIP.S8 D16,D17
VTBL.8 D28,{D10},D28 @II vtbl1_s8(edge_idx_tbl, vget_low_s8(edge_idx))
VADDW.S8 Q9,Q9,D16 @pi2_tmp_cur_row.val[0] = vaddw_s8(pi2_tmp_cur_row.val[0], offset)
VMAX.S16 Q9,Q9,Q2 @pi2_tmp_cur_row.val[0] = vmaxq_s16(pi2_tmp_cur_row.val[0], const_min_clip)
VTBL.8 D29,{D10},D29 @II vtbl1_s8(edge_idx_tbl, vget_high_s8(edge_idx))
VMIN.U16 Q9,Q9,Q3 @pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vminq_u16(vreinterpretq_u16_s16(pi2_tmp_cur_row.val[0]), const_max_clip))
VMOVN.I16 D18,Q9 @vmovn_s16(pi2_tmp_cur_row.val[0])
VAND Q14,Q14,Q4 @II edge_idx = vandq_s8(edge_idx, au1_mask)
SUB r5,r9,#2 @II wd - 2
VUZP.8 D28,D29 @II
SUB r14,r10,r4 @II (ht - row)
LSL r14,r14,#1 @II (ht - row) * 2
VTBL.8 D26,{D11},D28 @II offset = vtbl1_s8(offset_tbl_u, vget_low_s8(edge_idx))
MUL r14,r14,r1 @II (ht - row) * 2 * src_strd
ADD r5,r14,r5 @II (ht - row) * 2 * src_strd + (wd - 2)
VTBL.8 D27,{D0},D29 @II
LDRH r14,[r6, r5] @II pu1_src_org[(ht - row) * 2* src_strd + (wd - 2)]
VZIP.S8 D26,D27 @II
VST1.8 {D18},[r12],r1 @vst1q_u8(pu1_src_cpy, pu1_cur_row)
STRH r14,[r2],#2 @II pu1_src_left[(ht - row) * 2] = au1_src_left_tmp[(ht - row) * 2]
VADDW.S8 Q12,Q12,D26 @II pi2_tmp_cur_row.val[0] = vaddw_s8(pi2_tmp_cur_row.val[0], offset)
SUBS r4,r4,#1 @Decrement row by 1
VMAX.S16 Q12,Q12,Q2 @II pi2_tmp_cur_row.val[0] = vmaxq_s16(pi2_tmp_cur_row.val[0], const_min_clip)
VMIN.U16 Q12,Q12,Q3 @II pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vminq_u16(vreinterpretq_u16_s16(pi2_tmp_cur_row.val[0]), const_max_clip))
VMOVN.I16 D28,Q12 @II vmovn_s16(pi2_tmp_cur_row.val[0])
VST1.8 {D28},[r12],r1 @II vst1q_u8(pu1_src_cpy, pu1_cur_row)
BNE PU1_SRC_LOOP_RESIDUE @If not equal jump to the pu1_src loop
END_LOOPS:
LDMFD sp!,{r4-r12,r15} @Reload the registers from SP