///***************************************************************************** //* //* 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_class1_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_class1_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, // WORD32 ht) //**************Variables Vs Registers***************************************** //x0 => *pu1_src //x1 => src_strd //x2 => *pu1_src_left //x3 => *pu1_src_top //x4 => *pu1_src_top_left //x5 => *pu1_avail //x6 => *pi1_sao_offset_u //x7 => *pi1_sao_offset_v //x8 => wd //x9 => ht .text .p2align 2 .include "ihevc_neon_macros.s" .globl gi1_table_edge_idx .globl ihevc_sao_edge_offset_class1_chroma_av8 ihevc_sao_edge_offset_class1_chroma_av8: ldr x8,[sp,#0] ldr x9,[sp,#8] ldr w10,[sp,#16] ldr w11,[sp,#24] // STMFD sp!, {x4-x12, x14} //stack stores the values of the arguments stp x19, x20,[sp,#-16]! stp x21, x22,[sp,#-16]! stp x23, x24,[sp,#-16]! stp x25, x26,[sp,#-16]! mov x15,x4 // *pu1_src_top_left 40 mov x16,x5 // *pu1_src_top_right 44 mov x17,x6 // *pu1_src_bot_left 48 mov x21,x7 // *pu1_avail 52 mov x22,x8 // *pi1_sao_offset_u 56 mov x23,x9 // *pi1_sao_offset_v 60 mov x24,x10 // wd 64 mov x25,x11 // ht 68 mov x4,x15 mov x5,x21 mov x6,x22 mov x7,x23 mov x8,x24 mov x9,x25 SUB x10,x8,#2 //wd - 2 LDRH w11,[x3,x10] //pu1_src_top[wd - 2] STRH w11,[x4] //*pu1_src_top_left = pu1_src_top[wd - 2] ADD x11,x0,x10 //pu1_src[row * src_strd + wd - 2] MOV x12,x2 //Move pu1_src_left pointer to x11 MOV x14,x9 //Move ht to x14 for loop count SRC_LEFT_LOOP: LDRH w10,[x11] //Load pu1_src[row * src_strd + wd - 2] ADD x11,x11,x1 STRH w10,[x12],#2 //pu1_src_left[row] SUBS x14, x14,#1 //Decrement the loop count BNE SRC_LEFT_LOOP //If not equal to 0 jump to the src_left_loop SUB x12,x9,#1 //ht - 1 mul x12, x12, x1 //(ht - 1) * src_strd ADD x12,x12,x0 //pu1_src[(ht - 1) * src_strd] LDRB w4,[x5,#2] //pu1_avail[2] CMP x4,#0 //0 == pu1_avail[2] ADD x20,x0,x1 //pu1_src += src_strd csel x0, x20, x0,EQ SUB x20,x9,#1 //ht-- csel x9, x20, x9,EQ LDRB w4,[x5,#3] //pu1_avail[3] CMP x4,#0 //0 == pu1_avail[3] SUB x20,x9,#1 //ht-- csel x9, x20, x9,EQ movi v0.16b, #2 //const_2 = vdupq_n_s8(2) movi v2.8h, #0 //const_min_clip = vdupq_n_s16(0) movi v4.8h, #255 //const_max_clip = vdupq_n_u16((1 << bit_depth) - 1) ADRP x14, :got:gi1_table_edge_idx //table pointer LDR x14, [x14, #:got_lo12:gi1_table_edge_idx] LD1 {v6.8b},[x14] //edge_idx_tbl = vld1_s8(gi1_table_edge_idx) LD1 {v7.8b},[x6] //offset_tbl_u = vld1_s8(pi1_sao_offset_u) LD1 {v1.8b},[x7] //offset_tbl_v = vld1_s8(pi1_sao_offset_v) CMP x8,#16 //Compare wd with 16 BLT WIDTH_RESIDUE //If not jump to WIDTH_RESIDUE where loop is unrolled for 8 case WIDTH_LOOP_16: LDRB w4,[x5,#2] //pu1_avail[2] CMP x4,#0 //0 == pu1_avail[2] SUB x20,x0,x1 //pu1_src -= src_strd csel x11, x20, x11,EQ csel x11, x3, x11,NE //*pu1_src_top MOV x10,x0 //*pu1_src LD1 {v28.16b},[x11],#16 //pu1_top_row = vld1q_u8(pu1_src_top_cpy || pu1_src - src_strd) //LD1 {v29.8b},[x11],#8 //pu1_top_row = vld1q_u8(pu1_src_top_cpy || pu1_src - src_strd) LD1 {v3.16b},[x0],#16 //pu1_cur_row = vld1q_u8(pu1_src) //LD1 {v11.8b},[x0],#8 //pu1_cur_row = vld1q_u8(pu1_src) LD1 {v30.16b},[x12],#16 //vld1q_u8(pu1_src[(ht - 1) * src_strd]) //LD1 {v31.8b},[x12],#8 //vld1q_u8(pu1_src[(ht - 1) * src_strd]) cmhi v5.16b, v3.16b , v28.16b //vcgtq_u8(pu1_cur_row, pu1_top_row) ST1 { v30.16b},[x3],#16 //vst1q_u8(pu1_src_top[col]) cmhi v19.16b, v28.16b , v3.16b //vcltq_u8(pu1_cur_row, pu1_top_row) SUB v16.16b, v19.16b , v5.16b //sign_up = vreinterpretq_s8_u8(vsubq_u8(cmp_lt, cmp_gt)) MOV x11,x9 //move ht to x11 for loop count PU1_SRC_LOOP: ADD x10,x10,x1 //*pu1_src + src_strd LD1 {v18.16b},[x10] //pu1_next_row = vld1q_u8(pu1_src_cpy + src_strd) //LD1 {v19.8b},[x10] //pu1_next_row = vld1q_u8(pu1_src_cpy + src_strd) //SUB x10, x10,#8 ADD x6,x10,x1 //II Iteration *pu1_src + src_strd //mov v19.d[0],v18.d[1] cmhi v5.16b, v3.16b , v18.16b //vcgtq_u8(pu1_cur_row, pu1_top_row) LD1 {v30.16b},[x6] //II pu1_next_row = vld1q_u8(pu1_src_cpy + src_strd) //LD1 {v31.8b},[x6] //II pu1_next_row = vld1q_u8(pu1_src_cpy + src_strd) //SUB x6, x6,#8 cmhi v19.16b, v18.16b , v3.16b //vcltq_u8(pu1_cur_row, pu1_top_row) SUB x10,x10,x1 SUB v20.16b, v19.16b , v5.16b //sign_down = vreinterpretq_s8_u8(vsubq_u8(cmp_lt, cmp_gt)) Uxtl v26.8h, v18.8b //II pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vmovl_u8(vget_low_u8(pu1_cur_row))) ADD v5.16b, v0.16b , v16.16b //edge_idx = vaddq_s8(const_2, sign_up) Uxtl2 v28.8h, v18.16b //II pi2_tmp_cur_row.val[1] = vreinterpretq_s16_u16(vmovl_u8(vget_high_u8(pu1_cur_row))) ADD v5.16b, v5.16b , v20.16b //edge_idx = vaddq_s8(edge_idx, sign_down) cmhi v22.16b, v18.16b , v30.16b //II vcgtq_u8(pu1_cur_row, pu1_top_row) mov v16.d[1],v16.d[0] NEG v16.16b, v20.16b //sign_up = vnegq_s8(sign_down) TBL v5.16b, {v6.16b},v5.16b //vtbl1_s8(edge_idx_tbl, vget_low_s8(edge_idx)) cmhi v24.16b, v30.16b , v18.16b //II vcltq_u8(pu1_cur_row, pu1_top_row) SUB v28.16b, v24.16b , v22.16b //II sign_down = vreinterpretq_s8_u8(vsubq_u8(cmp_lt, cmp_gt)) //TBL v13.8b, {v6.16b},v13.8b //vtbl1_s8(edge_idx_tbl, vget_high_s8(edge_idx)) ADD v22.16b, v0.16b , v16.16b //II edge_idx = vaddq_s8(const_2, sign_up) mov v17.d[0], v5.d[1] UZP1 v27.8b, v5.8b, v17.8b UZP2 v17.8b, v5.8b, v17.8b mov v5.8b,v27.8b NEG v16.16b, v28.16b //II sign_up = vnegq_s8(sign_down) TBL v5.8b, {v7.16b},v5.8b //offset = vtbl1_s8(offset_tbl, vget_low_s8(edge_idx)) ADD v22.16b, v22.16b , v28.16b //II edge_idx = vaddq_s8(edge_idx, sign_down) Uxtl v20.8h, v3.8b //pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vmovl_u8(vget_low_u8(pu1_cur_row))) TBL v17.8b, {v1.16b},v17.8b ZIP1 v27.8b, v5.8b, v17.8b ZIP2 v17.8b, v5.8b, v17.8b mov v5.8b,v27.8b SADDW v20.8h, v20.8h , v5.8b //pi2_tmp_cur_row.val[0] = vaddw_s8(pi2_tmp_cur_row.val[0], offset) TBL v22.16b, {v6.16b},v22.16b //II vtbl1_s8(edge_idx_tbl, vget_low_s8(edge_idx)) SMAX v20.8h, v20.8h , v2.8h //pi2_tmp_cur_row.val[0] = vmaxq_s16(pi2_tmp_cur_row.val[0], const_min_clip) UMIN v20.8h, v20.8h , v4.8h //pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vminq_u16(vreinterpretq_u16_s16(pi2_tmp_cur_row.val[0]), const_max_clip)) //TBL v23.8b, {v6.16b},v23.8b //II vtbl1_s8(edge_idx_tbl, vget_high_s8(edge_idx)) mov v23.d[0], v22.d[1] UZP1 v27.8b, v22.8b, v23.8b UZP2 v23.8b, v22.8b, v23.8b mov v22.8b,v27.8b Uxtl2 v28.8h, v3.16b //pi2_tmp_cur_row.val[1] = vreinterpretq_s16_u16(vmovl_u8(vget_high_u8(pu1_cur_row))) //VTBL.8 D13,D7,D13 @offset = vtbl1_s8(offset_tbl, vget_high_s8(edge_idx)) mov v3.16b, v30.16b //II pu1_cur_row = pu1_next_row SADDW v28.8h, v28.8h , v17.8b //pi2_tmp_cur_row.val[1] = vaddw_s8(pi2_tmp_cur_row.val[1], offset) TBL v24.8b, {v7.16b},v22.8b //offset = vtbl1_s8(offset_tbl, vget_low_s8(edge_idx)) SMAX v28.8h, v28.8h , v2.8h //pi2_tmp_cur_row.val[1] = vmaxq_s16(pi2_tmp_cur_row.val[1], const_min_clip) TBL v25.8b, {v1.16b},v23.8b ZIP1 v27.8b, v24.8b, v25.8b ZIP2 v25.8b, v24.8b, v25.8b mov v24.8b,v27.8b //VTBL.8 D24,D7,D22 @II offset = vtbl1_s8(offset_tbl, vget_low_s8(edge_idx)) UMIN v28.8h, v28.8h , v4.8h //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 D25,D7,D23 @II offset = vtbl1_s8(offset_tbl, vget_high_s8(edge_idx)) xtn v20.8b, v20.8h //vmovn_s16(pi2_tmp_cur_row.val[0]) SADDW v26.8h, v26.8h , v24.8b //II pi2_tmp_cur_row.val[0] = vaddw_s8(pi2_tmp_cur_row.val[0], offset) xtn2 v20.16b, v28.8h //vmovn_s16(pi2_tmp_cur_row.val[1]) Uxtl2 v28.8h, v18.16b //II pi2_tmp_cur_row.val[1] = vreinterpretq_s16_u16(vmovl_u8(vget_high_u8(pu1_cur_row))) SADDW v28.8h, v28.8h , v25.8b //II pi2_tmp_cur_row.val[1] = vaddw_s8(pi2_tmp_cur_row.val[1], offset) SMAX v26.8h, v26.8h , v2.8h //II pi2_tmp_cur_row.val[0] = vmaxq_s16(pi2_tmp_cur_row.val[0], const_min_clip) UMIN v26.8h, v26.8h , v4.8h //II pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vminq_u16(vreinterpretq_u16_s16(pi2_tmp_cur_row.val[0]), const_max_clip)) SMAX v28.8h, v28.8h , v2.8h //II pi2_tmp_cur_row.val[1] = vmaxq_s16(pi2_tmp_cur_row.val[1], const_min_clip) UMIN v28.8h, v28.8h , v4.8h //II pi2_tmp_cur_row.val[1] = vreinterpretq_s16_u16(vminq_u16(vreinterpretq_u16_s16(pi2_tmp_cur_row.val[1]), const_max_clip)) ST1 { v20.16b},[x10],x1 //vst1q_u8(pu1_src_cpy, pu1_cur_row) xtn v30.8b, v26.8h //II vmovn_s16(pi2_tmp_cur_row.val[0]) SUBS x11,x11,#2 //II Decrement the ht loop count by 1 xtn2 v30.16b, v28.8h //II vmovn_s16(pi2_tmp_cur_row.val[1]) ST1 { v30.16b},[x10],x1 //II vst1q_u8(pu1_src_cpy, pu1_cur_row) BEQ PU1_SRC_LOOP_END //if 0 == pu1_avail[3] || 0 == pu1_avail[2] ht = ht-- CMP x11,#1 //checking any residue remains BGT PU1_SRC_LOOP //If not equal jump to PU1_SRC_LOOP ADD x10,x10,x1 //*pu1_src + src_strd LD1 {v18.16b},[x10] //pu1_next_row = vld1q_u8(pu1_src_cpy + src_strd) //LD1 {v19.8b},[x10] //pu1_next_row = vld1q_u8(pu1_src_cpy + src_strd) //SUB x10, x10,#8 cmhi v5.16b, v3.16b , v18.16b //vcgtq_u8(pu1_cur_row, pu1_top_row) cmhi v19.16b, v18.16b , v3.16b //vcltq_u8(pu1_cur_row, pu1_top_row) SUB v20.16b, v19.16b , v5.16b //sign_down = vreinterpretq_s8_u8(vsubq_u8(cmp_lt, cmp_gt)) SUB x10,x10,x1 ADD v22.16b, v0.16b , v16.16b //edge_idx = vaddq_s8(const_2, sign_up) ADD v22.16b, v22.16b , v20.16b //edge_idx = vaddq_s8(edge_idx, sign_down) TBL v22.16b, {v6.16b},v22.16b //vtbl1_s8(edge_idx_tbl, vget_low_s8(edge_idx)) //TBL v23.8b, {v6.16b},v23.8b //vtbl1_s8(edge_idx_tbl, vget_high_s8(edge_idx)) mov v23.d[0],v22.d[1] UZP1 v27.8b, v22.8b, v23.8b UZP2 v23.8b, v22.8b, v23.8b mov v22.8b,v27.8b TBL v24.8b, {v7.16b},v22.8b TBL v25.8b, {v1.16b},v23.8b ZIP1 v27.8b, v24.8b, v25.8b ZIP2 v25.8b, v24.8b, v25.8b mov v24.8b,v27.8b //VTBL.8 D24,D7,D22 @offset = vtbl1_s8(offset_tbl, vget_low_s8(edge_idx)) Uxtl v26.8h, v3.8b //pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vmovl_u8(vget_low_u8(pu1_cur_row))) SADDW v26.8h, v26.8h , v24.8b //pi2_tmp_cur_row.val[0] = vaddw_s8(pi2_tmp_cur_row.val[0], offset) SMAX v26.8h, v26.8h , v2.8h //pi2_tmp_cur_row.val[0] = vmaxq_s16(pi2_tmp_cur_row.val[0], const_min_clip) UMIN v26.8h, v26.8h , v4.8h //pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vminq_u16(vreinterpretq_u16_s16(pi2_tmp_cur_row.val[0]), const_max_clip)) //VTBL.8 D25,D7,D23 @offset = vtbl1_s8(offset_tbl, vget_high_s8(edge_idx)) Uxtl2 v28.8h, v3.16b //pi2_tmp_cur_row.val[1] = vreinterpretq_s16_u16(vmovl_u8(vget_high_u8(pu1_cur_row))) SADDW v28.8h, v28.8h , v25.8b //pi2_tmp_cur_row.val[1] = vaddw_s8(pi2_tmp_cur_row.val[1], offset) SMAX v28.8h, v28.8h , v2.8h //pi2_tmp_cur_row.val[1] = vmaxq_s16(pi2_tmp_cur_row.val[1], const_min_clip) UMIN v28.8h, v28.8h , v4.8h //pi2_tmp_cur_row.val[1] = vreinterpretq_s16_u16(vminq_u16(vreinterpretq_u16_s16(pi2_tmp_cur_row.val[1]), const_max_clip)) xtn v30.8b, v26.8h //vmovn_s16(pi2_tmp_cur_row.val[0]) xtn2 v30.16b, v28.8h //vmovn_s16(pi2_tmp_cur_row.val[1]) ST1 { v30.16b},[x10],x1 //vst1q_u8(pu1_src_cpy, pu1_cur_row) PU1_SRC_LOOP_END: mov v3.16b, v18.16b //pu1_cur_row = pu1_next_row SUBS x8,x8,#16 //Decrement the wd loop count by 16 CMP x8,#8 //Check whether residue remains 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: LDRB w4,[x5,#2] //pu1_avail[2] CMP x4,#0 //0 == pu1_avail[2] SUB x20,x0,x1 //pu1_src -= src_strd csel x11, x20, x11,EQ csel x11, x3, x11,NE //*pu1_src_top MOV x10,x0 LD1 {v28.16b},[x11] //pu1_top_row = vld1q_u8(pu1_src_top_cpy || pu1_src - src_strd) //LD1 {v29.8b},[x11],#8 //pu1_top_row = vld1q_u8(pu1_src_top_cpy || pu1_src - src_strd) LD1 {v3.16b},[x0] //pu1_cur_row = vld1q_u8(pu1_src) //LD1 {v11.8b},[x0],#8 //pu1_cur_row = vld1q_u8(pu1_src) LD1 {v30.8b},[x12] //vld1_u8(pu1_src[(ht - 1) * src_strd]) ST1 {v30.8b},[x3] //vst1_u8(pu1_src_top[col]) cmhi v5.16b, v3.16b , v28.16b //vcgtq_u8(pu1_cur_row, pu1_top_row) cmhi v19.16b, v28.16b , v3.16b //vcltq_u8(pu1_cur_row, pu1_top_row) SUB v16.16b, v19.16b , v5.16b //sign_up = vreinterpretq_s8_u8(vsubq_u8(cmp_lt, cmp_gt)) MOV x11,x9 //move ht to x11 for loop count PU1_SRC_LOOP_RESIDUE: ADD x10,x10,x1 //*pu1_src + src_strd LD1 {v18.16b},[x10] //pu1_next_row = vld1q_u8(pu1_src_cpy + src_strd) //LD1 {v19.8b},[x10] //pu1_next_row = vld1q_u8(pu1_src_cpy + src_strd) //SUB x10, x10,#8 ADD x6,x10,x1 //II Iteration *pu1_src + src_strd cmhi v5.16b, v3.16b , v18.16b //vcgtq_u8(pu1_cur_row, pu1_next_row) LD1 {v30.16b},[x6] //II pu1_next_row = vld1q_u8(pu1_src_cpy + src_strd) //LD1 {v31.8b},[x6] //II pu1_next_row = vld1q_u8(pu1_src_cpy + src_strd) //SUB x6, x6,#8 cmhi v19.16b, v18.16b , v3.16b //vcltq_u8(pu1_cur_row, pu1_next_row) SUB x10,x10,x1 SUB v20.16b, v19.16b , v5.16b //sign_down = vreinterpretq_s8_u8(vsubq_u8(cmp_lt, cmp_gt)) Uxtl v26.8h, v18.8b //II pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vmovl_u8(vget_low_u8(pu1_cur_row))) ADD v5.16b, v0.16b , v16.16b //edge_idx = vaddq_s8(const_2, sign_up) cmhi v22.16b, v18.16b , v30.16b //II vcgtq_u8(pu1_cur_row, pu1_next_row) ADD v5.16b, v5.16b , v20.16b //edge_idx = vaddq_s8(edge_idx, sign_down) cmhi v24.16b, v30.16b , v18.16b //II vcltq_u8(pu1_cur_row, pu1_next_row) NEG v16.16b, v20.16b //sign_up = vnegq_s8(sign_down) TBL v5.8b, {v6.16b},v5.8b //vtbl1_s8(edge_idx_tbl, vget_low_s8(edge_idx)) SUB v20.16b, v24.16b , v22.16b //II sign_down = vreinterpretq_s8_u8(vsubq_u8(cmp_lt, cmp_gt)) UZP1 v27.8b, v5.8b, v17.8b UZP2 v17.8b, v5.8b, v17.8b mov v5.8b,v27.8b ADD v22.16b, v0.16b , v16.16b //II edge_idx = vaddq_s8(const_2, sign_up) TBL v5.8b, {v7.16b},v5.8b NEG v16.16b, v20.16b //II sign_up = vnegq_s8(sign_down) TBL v17.8b, {v1.16b},v17.8b ZIP1 v27.8b, v5.8b, v17.8b ZIP2 v17.8b, v5.8b, v17.8b mov v5.8b,v27.8b //VTBL.8 D12,D7,D12 @offset = vtbl1_s8(offset_tbl, vget_low_s8(edge_idx)) ADD v22.16b, v22.16b , v20.16b //II edge_idx = vaddq_s8(edge_idx, sign_down) Uxtl v20.8h, v3.8b //pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vmovl_u8(vget_low_u8(pu1_cur_row))) SADDW v20.8h, v20.8h , v5.8b //pi2_tmp_cur_row.val[0] = vaddw_s8(pi2_tmp_cur_row.val[0], offset) TBL v22.8b, {v6.16b},v22.8b //II vtbl1_s8(edge_idx_tbl, vget_low_s8(edge_idx)) SMAX v20.8h, v20.8h , v2.8h //pi2_tmp_cur_row.val[0] = vmaxq_s16(pi2_tmp_cur_row.val[0], const_min_clip) UZP1 v27.8b, v22.8b, v23.8b UZP2 v23.8b, v22.8b, v23.8b mov v22.8b,v27.8b UMIN v20.8h, v20.8h , v4.8h //pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vminq_u16(vreinterpretq_u16_s16(pi2_tmp_cur_row.val[0]), const_max_clip)) TBL v24.8b, {v7.16b},v22.8b xtn v20.8b, v20.8h //vmovn_s16(pi2_tmp_cur_row.val[0]) TBL v25.8b, {v1.16b},v23.8b ZIP1 v27.8b, v24.8b, v25.8b ZIP2 v25.8b, v24.8b, v25.8b mov v24.8b,v27.8b //VTBL.8 D24,D7,D22 @II offset = vtbl1_s8(offset_tbl, vget_low_s8(edge_idx)) SADDW v26.8h, v26.8h , v24.8b //II pi2_tmp_cur_row.val[0] = vaddw_s8(pi2_tmp_cur_row.val[0], offset) SMAX v26.8h, v26.8h , v2.8h //II pi2_tmp_cur_row.val[0] = vmaxq_s16(pi2_tmp_cur_row.val[0], const_min_clip) UMIN v26.8h, v26.8h , v4.8h //II pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vminq_u16(vreinterpretq_u16_s16(pi2_tmp_cur_row.val[0]), const_max_clip)) mov v3.16b, v30.16b //II pu1_cur_row = pu1_next_row ST1 {v20.8b},[x10],x1 //vst1q_u8(pu1_src_cpy, pu1_cur_row) xtn v30.8b, v26.8h //II vmovn_s16(pi2_tmp_cur_row.val[0]) SUBS x11,x11,#2 //Decrement the ht loop count by 1 ST1 {v30.8b},[x10],x1 //II vst1q_u8(pu1_src_cpy, pu1_cur_row) BEQ END_LOOPS CMP x11,#1 BGT PU1_SRC_LOOP_RESIDUE //If not equal jump to PU1_SRC_LOOP ADD x10,x10,x1 //*pu1_src + src_strd LD1 {v18.16b},[x10] //pu1_next_row = vld1q_u8(pu1_src_cpy + src_strd) //LD1 {v19.8b},[x10] //pu1_next_row = vld1q_u8(pu1_src_cpy + src_strd) //SUB x10, x10,#8 cmhi v5.16b, v3.16b , v18.16b //vcgtq_u8(pu1_cur_row, pu1_next_row) cmhi v19.16b, v18.16b , v3.16b //vcltq_u8(pu1_cur_row, pu1_next_row) SUB v20.16b, v19.16b , v5.16b //sign_down = vreinterpretq_s8_u8(vsubq_u8(cmp_lt, cmp_gt)) SUB x10,x10,x1 ADD v22.16b, v0.16b , v16.16b //edge_idx = vaddq_s8(const_2, sign_up) ADD v22.16b, v22.16b , v20.16b //edge_idx = vaddq_s8(edge_idx, sign_down) TBL v22.8b, {v6.16b},v22.8b //vtbl1_s8(edge_idx_tbl, vget_low_s8(edge_idx)) UZP1 v27.8b, v22.8b, v23.8b UZP2 v23.8b, v22.8b, v23.8b mov v22.8b,v27.8b TBL v24.8b, {v7.16b},v22.8b TBL v25.8b, {v1.16b},v23.8b ZIP1 v27.8b, v24.8b, v25.8b ZIP2 v25.8b, v24.8b, v25.8b mov v24.8b,v27.8b //VTBL.8 D24,D7,D22 @offset = vtbl1_s8(offset_tbl, vget_low_s8(edge_idx)) Uxtl v26.8h, v3.8b //pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vmovl_u8(vget_low_u8(pu1_cur_row))) SADDW v26.8h, v26.8h , v24.8b //pi2_tmp_cur_row.val[0] = vaddw_s8(pi2_tmp_cur_row.val[0], offset) SMAX v26.8h, v26.8h , v2.8h //pi2_tmp_cur_row.val[0] = vmaxq_s16(pi2_tmp_cur_row.val[0], const_min_clip) UMIN v26.8h, v26.8h , v4.8h //pi2_tmp_cur_row.val[0] = vreinterpretq_s16_u16(vminq_u16(vreinterpretq_u16_s16(pi2_tmp_cur_row.val[0]), const_max_clip)) xtn v30.8b, v26.8h //vmovn_s16(pi2_tmp_cur_row.val[0]) ST1 {v30.8b},[x10],x1 //vst1q_u8(pu1_src_cpy, pu1_cur_row) END_LOOPS: // LDMFD sp!,{x4-x12,x15} //Reload the registers from SP ldp x25, x26,[sp],#16 ldp x23, x24,[sp],#16 ldp x21, x22,[sp],#16 ldp x19, x20,[sp],#16 ret