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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_weighted_pred_uni.s
@*
@* @brief
@* contains function definitions for weighted prediction used in inter
@* prediction
@*
@* @author
@* parthiban v
@*
@* @par list of functions:
@* - ihevc_weighted_pred_uni()
@*
@* @remarks
@* none
@*
@*******************************************************************************
@*/
@/**
@*******************************************************************************
@*
@* @brief
@* does uni-weighted prediction on the array pointed by pi2_src and stores
@* it at the location pointed by pi2_dst assumptions : the function is
@* optimized considering the fact width and height are multiple of 2.
@*
@* @par description:
@* dst = ( (src + lvl_shift) * wgt0 + (1 << (shift - 1)) ) >> shift +
@* offset
@*
@* @param[in] pi2_src
@* pointer to the source
@*
@* @param[out] pu1_dst
@* pointer to the destination
@*
@* @param[in] src_strd
@* source stride
@*
@* @param[in] dst_strd
@* destination stride
@*
@* @param[in] wgt0
@* weight to be multiplied to the source
@*
@* @param[in] off0
@* offset to be added after rounding and
@*
@* @param[in] shifting
@*
@*
@* @param[in] shift
@* (14 bit depth) + log2_weight_denominator
@*
@* @param[in] lvl_shift
@* added before shift and offset
@*
@* @param[in] ht
@* height of the source
@*
@* @param[in] wd
@* width of the source
@*
@* @returns
@*
@* @remarks
@* none
@*
@*******************************************************************************
@*/
@void ihevc_weighted_pred_uni(word16 *pi2_src,
@ uword8 *pu1_dst,
@ word32 src_strd,
@ word32 dst_strd,
@ word32 wgt0,
@ word32 off0,
@ word32 shift,
@ word32 lvl_shift,
@ word32 ht,
@ word32 wd)
@**************variables vs registers*****************************************
@ r0 => *pi2_src
@ r1 => *pu1_dst
@ r2 => src_strd
@ r3 => dst_strd
@ r4 => wgt0
@ r5 => off0
@ r6 => shift
@ r7 => lvl_shift
@ r8 => ht
@ r9 => wd
.text
.align 4
.globl ihevc_weighted_pred_uni_a9q
.type ihevc_weighted_pred_uni_a9q, %function
ihevc_weighted_pred_uni_a9q:
stmfd sp!, {r4-r12, r14} @stack stores the values of the arguments
ldr r4,[sp,#40] @load wgt0
ldr r7,[sp,#52] @load lvl_shift
mov r11,#1
ldr r5,[sp,#44] @load off0
mul r10,r7,r4 @lvl_shift * wgt0
ldr r6,[sp,#48] @load shift
ldr r8,[sp,#56] @load ht
add r10,r10,r5,lsl r6 @lvl_shift * wgt0 + (off0 << shift)
ldr r9,[sp,#60] @load wt
sub r12,r6,#1
vmov.s16 d0[0],r4 @moved for scalar multiplication
lsl r2,r2,#1
vdup.u32 q14,r6 @vmovq_n_s32(tmp_shift)
add r10,r10,r11,lsl r12 @tmp_lvl_shift += (1 << (shift - 1))
vdup.s32 q15,r10 @vmovq_n_s32(tmp_lvl_shift)
vneg.s32 q14,q14
lsl r4,r9,#1
cmp r8,#0 @check ht == 0
beq end_loops @if equal, then end the function
outer_loop:
cmp r9,#0 @check wd == 0
beq end_loops @if equal, then end the function
core_loop:
add r5,r0,r2 @pi2_src_tmp1 = pi2_src1 + 2*src_strd1(2* because pi1_src is a 16 bit pointer)
add r6,r1,r3 @pu1_dst_tmp = pu1_dst + dst_strd
vld1.s16 {d1},[r0]! @load and increment the pi2_src
vld1.s16 {d2},[r5],r2 @load and increment the pi2_src_tmp ii iteration
vmull.s16 q2,d1,d0[0] @vmull_n_s16(pi2_src_val1, (int16_t) wgt0)
vadd.i32 q2,q2,q15 @vaddq_s32(i4_tmp1_t, tmp_lvl_shift_t)
vld1.s16 {d8},[r5],r2 @load and increment the pi2_src iii iteration
vmull.s16 q3,d2,d0[0] @vmull_n_s16(pi2_src_val2, (int16_t) wgt0) ii iteration
vld1.s16 {d9},[r5],r2 @load and increment the pi2_src_tmp iv iteration
vshl.s32 q2,q2,q14 @vshlq_s32(i4_tmp1_t, tmp_shift_t)
vadd.i32 q3,q3,q15 @vaddq_s32(i4_tmp2_t, tmp_lvl_shift_t) ii iteration
vmull.s16 q5,d8,d0[0] @vmull_n_s16(pi2_src_val1, (int16_t) wgt0) iii iteration
vqmovun.s32 d4,q2 @vqmovun_s32(sto_res_tmp1)
vadd.i32 q5,q5,q15 @vaddq_s32(i4_tmp1_t, tmp_lvl_shift_t) iii iteration
vmov.s32 d5,d4 @vcombine_u16(sto_res_tmp2, sto_res_tmp2)
vshl.s32 q3,q3,q14 @vshlq_s32(i4_tmp2_t, tmp_shift_t) ii iteration
vmull.s16 q6,d9,d0[0] @vmull_n_s16(pi2_src_val2, (int16_t) wgt0) iv iteration
vqmovn.u16 d4,q2 @vqmovn_u16(sto_res_tmp3)
vshl.s32 q5,q5,q14 @vshlq_s32(i4_tmp1_t, tmp_shift_t) iii iteration
vqmovun.s32 d6,q3 @vqmovun_s32(sto_res_tmp1) ii iteration
vadd.i32 q6,q6,q15 @vaddq_s32(i4_tmp2_t, tmp_lvl_shift_t) iv iteration
vmov.s32 d7,d6 @vcombine_u16(sto_res_tmp2, sto_res_tmp2) ii iteration
vqmovun.s32 d10,q5 @vqmovun_s32(sto_res_tmp1) iii iteration
vshl.s32 q6,q6,q14 @vshlq_s32(i4_tmp2_t, tmp_shift_t) iv iteration
vst1.32 {d4[0]},[r1]! @store pu1_dst i iteration
vmov.s32 d11,d10 @vcombine_u16(sto_res_tmp2, sto_res_tmp2) iii iteration
vqmovn.u16 d6,q3 @vqmovn_u16(sto_res_tmp3) ii iteration
vst1.32 {d6[0]},[r6],r3 @store pu1_dst ii iteration
vqmovn.u16 d10,q5 @vqmovn_u16(sto_res_tmp3) iii iteration
vqmovun.s32 d12,q6 @vqmovun_s32(sto_res_tmp1) iv iteration
vmov.s32 d13,d12 @vcombine_u16(sto_res_tmp2, sto_res_tmp2) iv iteration
vst1.32 {d10[0]},[r6],r3 @store pu1_dst i iteration iii iteration
vqmovn.u16 d12,q6 @vqmovn_u16(sto_res_tmp3) iv iteration
subs r9,r9,#4 @decrement wd by 4 and check for 0
vst1.32 {d12[0]},[r6],r3 @store pu1_dst iv iteration
bgt core_loop @if greater than 0 repeat the core loop again
end_core_loop:
rsb r11,r4,r2,lsl #2 @2*src_strd - wd
subs r8,r8,#4 @decrement the ht by 4
add r0,r0,r11 @pi2_src + 4*src_strd - 2*wd(since pi2_src is 16 bit pointer double the increment with double the wd decrement)
asr r9,r4,#1
rsb r12,r9,r3,lsl #2 @2*dst_strd - wd
add r1,r1,r12 @pu1_dst + dst_std - wd
bgt core_loop @if ht is greater than 0 goto outer_loop
end_loops:
ldmfd sp!,{r4-r12,r15} @reload the registers from sp