common/arm/ihevc_inter_pred_chroma_copy.s - platform/external/libhevc - Git at Google

 @/*****************************************************************************
 @*
 @* 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_inter_pred_chroma_copy_neon.s
 @*
 @* @brief
 @*  contains function definitions for inter prediction  interpolation.
 @* functions are coded using neon  intrinsics and can be compiled using

 @* rvct
 @*
 @* @author
 @*  yogeswaran rs
 @*
 @* @par list of functions:
 @*
 @*
 @* @remarks
 @*  none
 @*
 @*******************************************************************************
 @*/
 @/**
 @*******************************************************************************
 @*
 @* @brief
 @*   chroma interprediction filter for copy
 @*
 @* @par description:
 @*    copies the array of width 'wd' and height 'ht' from the  location pointed
 @*    by 'src' to the location pointed by 'dst'
 @*
 @* @param[in] pu1_src
 @*  uword8 pointer to the source
 @*
 @* @param[out] pu1_dst
 @*  uword8 pointer to the destination
 @*
 @* @param[in] src_strd
 @*  integer source stride
 @*
 @* @param[in] dst_strd
 @*  integer destination stride
 @*
 @* @param[in] pi1_coeff
 @*  word8 pointer to the filter coefficients
 @*
 @* @param[in] ht
 @*  integer height of the array
 @*
 @* @param[in] wd
 @*  integer width of the array
 @*
 @* @returns
 @*
 @* @remarks
 @*  none
 @*
 @*******************************************************************************
 @*/

 @void ihevc_inter_pred_chroma_copy( uword8 *pu1_src,
 @                                   uword8 *pu1_dst,
 @                                   word32 src_strd,
 @                                   word32 dst_strd,
 @                                   word8 *pi1_coeff,
 @                                   word32 ht,
 @                                   word32 wd)
 @**************variables vs registers*****************************************
 @               r0 => *pu1_src
 @               r1 => *pu1_dst
 @               r2 =>  src_strd
 @               r3 =>  dst_strd
 @               r4 => *pi1_coeff
 @               r5 =>  ht
 @               r6 =>  wd

 .text
 .align 4


 .globl ihevc_inter_pred_chroma_copy_a9q

 .type ihevc_inter_pred_chroma_copy_a9q, %function

 ihevc_inter_pred_chroma_copy_a9q:
     stmfd       sp!, {r4-r12, r14}          @stack stores the values of the arguments
     ldr         r12,[sp,#48]                @loads wd
     lsl         r12,r12,#1
     ldr         r7,[sp,#44]                 @loads ht
     cmp         r7,#0                       @checks ht == 0
     ble         end_loops
     and         r8,r7,#3                    @check ht for mul of 2
     sub         r7,r7,r8                    @check the rounded height value
     tst         r12,#15                     @checks wd for multiples for 4 & 8
     beq         core_loop_wd_16
     tst         r12,#7                      @checks wd for multiples for 4 & 8
     beq         core_loop_wd_8

     sub         r11,r12,#4
     cmp         r7,#0
     beq         outer_loop_wd_4_ht_2

 outer_loop_wd_4:
     subs        r4,r12,#0                   @checks wd == 0
     ble         end_inner_loop_wd_4

 inner_loop_wd_4:
     vld1.32     {d0[0]},[r0]                @vld1_lane_u32((uint32_t *)pu1_src_tmp, src_tmp, 0)
     add         r5,r0,r2                    @pu1_src_tmp += src_strd
     add         r6,r1,r3                    @pu1_dst_tmp += dst_strd
     vst1.32     {d0[0]},[r1]                @vst1_lane_u32((uint32_t *)pu1_dst_tmp, src_tmp, 0)
     vld1.32     {d0[0]},[r5],r2             @vld1_lane_u32((uint32_t *)pu1_src_tmp, src_tmp, 0)
     add         r0,r0,#4                    @pu1_src += 4
     vst1.32     {d0[0]},[r6],r3             @vst1_lane_u32((uint32_t *)pu1_dst_tmp, src_tmp, 0)
     vld1.32     {d0[0]},[r5],r2             @vld1_lane_u32((uint32_t *)pu1_src_tmp, src_tmp, 0)
     subs        r4,r4,#4                    @(wd -4)
     vst1.32     {d0[0]},[r6],r3             @vst1_lane_u32((uint32_t *)pu1_dst_tmp, src_tmp, 0)
     vld1.32     {d0[0]},[r5],r2             @vld1_lane_u32((uint32_t *)pu1_src_tmp, src_tmp, 0)
     add         r1,r1,#4                    @pu1_dst += 4
     vst1.32     {d0[0]},[r6],r3             @vst1_lane_u32((uint32_t *)pu1_dst_tmp, src_tmp, 0)
     bgt         inner_loop_wd_4

 end_inner_loop_wd_4:
     subs        r7,r7,#4                    @ht - 4
     sub         r0,r5,r11                   @pu1_src = pu1_src_tmp
     sub         r1,r6,r11                   @pu1_dst = pu1_dst_tmp
     bgt         outer_loop_wd_4
     cmp         r8,#0
     bgt         outer_loop_wd_4_ht_2

 end_loops:
     ldmfd       sp!,{r4-r12,r15}            @reload the registers from sp


 outer_loop_wd_4_ht_2:
     subs        r4,r12,#0                   @checks wd == 0
     ble         end_loops

 inner_loop_wd_4_ht_2:
     vld1.32     {d0[0]},[r0]                @vld1_lane_u32((uint32_t *)pu1_src_tmp, src_tmp, 0)
     add         r5,r0,r2                    @pu1_src_tmp += src_strd
     add         r6,r1,r3                    @pu1_dst_tmp += dst_strd
     vst1.32     {d0[0]},[r1]                @vst1_lane_u32((uint32_t *)pu1_dst_tmp, src_tmp, 0)
     vld1.32     {d0[0]},[r5],r2             @vld1_lane_u32((uint32_t *)pu1_src_tmp, src_tmp, 0)
     add         r0,r0,#4                    @pu1_src += 4
     vst1.32     {d0[0]},[r6],r3             @vst1_lane_u32((uint32_t *)pu1_dst_tmp, src_tmp, 0)
     subs        r4,r4,#4                    @(wd -4)
     add         r1,r1,#4                    @pu1_dst += 4
     bgt         inner_loop_wd_4_ht_2
     b           end_loops

 core_loop_wd_8:
     sub         r11,r12,#8
     cmp         r7,#0
     beq         outer_loop_wd_8_ht_2

 outer_loop_wd_8:
     subs        r4,r12,#0                   @checks wd
     ble         end_inner_loop_wd_8

 inner_loop_wd_8:
     add         r5,r0,r2                    @pu1_src_tmp += src_strd
     vld1.8      {d0},[r0]!                  @vld1_u8(pu1_src_tmp)
     add         r6,r1,r3                    @pu1_dst_tmp += dst_strd
     vst1.8      {d0},[r1]!                  @vst1_u8(pu1_dst_tmp, tmp_src)
     vld1.8      {d1},[r5],r2                @vld1_u8(pu1_src_tmp)
     vst1.8      {d1},[r6],r3                @vst1_u8(pu1_dst_tmp, tmp_src)
     subs        r4,r4,#8                    @wd - 8(loop condition)
     vld1.8      {d2},[r5],r2                @vld1_u8(pu1_src_tmp)
     vst1.8      {d2},[r6],r3                @vst1_u8(pu1_dst_tmp, tmp_src)
     vld1.8      {d3},[r5],r2                @vld1_u8(pu1_src_tmp)
     vst1.8      {d3},[r6],r3                @vst1_u8(pu1_dst_tmp, tmp_src)
     bgt         inner_loop_wd_8

 end_inner_loop_wd_8:
     subs        r7,r7,#4                    @ht -= 4
     sub         r0,r5,r11                   @pu1_src = pu1_src_tmp
     sub         r1,r6,r11                   @pu1_dst = pu1_dst_tmp
     bgt         outer_loop_wd_8
     cmp         r8,#0
     bgt         outer_loop_wd_8_ht_2
     b           end_loops

 outer_loop_wd_8_ht_2:
     subs        r4,r12,#0                   @checks wd
     ble         end_loops

 inner_loop_wd_8_ht_2:
     add         r5,r0,r2                    @pu1_src_tmp += src_strd
     vld1.8      {d0},[r0]!                  @vld1_u8(pu1_src_tmp)
     add         r6,r1,r3                    @pu1_dst_tmp += dst_strd
     vst1.8      {d0},[r1]!                  @vst1_u8(pu1_dst_tmp, tmp_src)
     vld1.8      {d1},[r5],r2                @vld1_u8(pu1_src_tmp)
     vst1.8      {d1},[r6],r3                @vst1_u8(pu1_dst_tmp, tmp_src)
     @subs     r4,r4,#8                      @wd - 8(loop condition)
     @bgt      inner_loop_wd_8_ht_2
     b           end_loops

 core_loop_wd_16:
     sub         r11,r12,#16
     cmp         r7,#0
     beq         outer_loop_wd_16_ht_2

 outer_loop_wd_16:
     subs        r4,r12,#0                   @checks wd
     ble         end_inner_loop_wd_16

 inner_loop_wd_16:
     add         r5,r0,r2                    @pu1_src_tmp += src_strd
     vld1.8      {q0},[r0]!                  @vld1_u8(pu1_src_tmp)
     add         r6,r1,r3                    @pu1_dst_tmp += dst_strd
     vst1.8      {q0},[r1]!                  @vst1_u8(pu1_dst_tmp, tmp_src)
     vld1.8      {q1},[r5],r2                @vld1_u8(pu1_src_tmp)
     vst1.8      {q1},[r6],r3                @vst1_u8(pu1_dst_tmp, tmp_src)
     subs        r4,r4,#16                   @wd - 16(loop condition)
     vld1.8      {q2},[r5],r2                @vld1_u8(pu1_src_tmp)
     vst1.8      {q2},[r6],r3                @vst1_u8(pu1_dst_tmp, tmp_src)
     vld1.8      {q3},[r5],r2                @vld1_u8(pu1_src_tmp)
     vst1.8      {q3},[r6],r3                @vst1_u8(pu1_dst_tmp, tmp_src)
     bgt         inner_loop_wd_16

 end_inner_loop_wd_16:
     subs        r7,r7,#4                    @ht -= 4
     sub         r0,r5,r11                   @pu1_src = pu1_src_tmp
     sub         r1,r6,r11                   @pu1_dst = pu1_dst_tmp
     bgt         outer_loop_wd_16
     cmp         r8,#0
     bgt         outer_loop_wd_16_ht_2
     b           end_loops

 outer_loop_wd_16_ht_2:
     subs        r4,r12,#0                   @checks wd
     ble         end_loops

 inner_loop_wd_16_ht_2:
     add         r5,r0,r2                    @pu1_src_tmp += src_strd
     vld1.8      {q0},[r0]!                  @vld1_u8(pu1_src_tmp)
     add         r6,r1,r3                    @pu1_dst_tmp += dst_strd
     vst1.8      {q0},[r1]!                  @vst1_u8(pu1_dst_tmp, tmp_src)
     vld1.8      {q1},[r5],r2                @vld1_u8(pu1_src_tmp)
     vst1.8      {q1},[r6],r3                @vst1_u8(pu1_dst_tmp, tmp_src)
     @subs     r4,r4,#16                     @wd - 16(loop condition)
     @bgt      inner_loop_wd_16_ht_2

     ldmfd       sp!,{r4-r12,r15}            @reload the registers from sp
	@/*****************************************************************************
	@*
	@* 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_inter_pred_chroma_copy_neon.s
	@*
	@* @brief
	@* contains function definitions for inter prediction interpolation.
	@* functions are coded using neon intrinsics and can be compiled using

	@* rvct
	@*
	@* @author
	@* yogeswaran rs
	@*
	@* @par list of functions:
	@*
	@*
	@* @remarks
	@* none
	@*
	@*******************************************************************************
	@*/
	@/**
	@*******************************************************************************
	@*
	@* @brief
	@* chroma interprediction filter for copy
	@*
	@* @par description:
	@* copies the array of width 'wd' and height 'ht' from the location pointed
	@* by 'src' to the location pointed by 'dst'
	@*
	@* @param[in] pu1_src
	@* uword8 pointer to the source
	@*
	@* @param[out] pu1_dst
	@* uword8 pointer to the destination
	@*
	@* @param[in] src_strd
	@* integer source stride
	@*
	@* @param[in] dst_strd
	@* integer destination stride
	@*
	@* @param[in] pi1_coeff
	@* word8 pointer to the filter coefficients
	@*
	@* @param[in] ht
	@* integer height of the array
	@*
	@* @param[in] wd
	@* integer width of the array
	@*
	@* @returns
	@*
	@* @remarks
	@* none
	@*
	@*******************************************************************************
	@*/

	@void ihevc_inter_pred_chroma_copy( uword8 *pu1_src,
	@ uword8 *pu1_dst,
	@ word32 src_strd,
	@ word32 dst_strd,
	@ word8 *pi1_coeff,
	@ word32 ht,
	@ word32 wd)
	@************variables vs registers***************************************
	@ r0 => *pu1_src
	@ r1 => *pu1_dst
	@ r2 => src_strd
	@ r3 => dst_strd
	@ r4 => *pi1_coeff
	@ r5 => ht
	@ r6 => wd

	.text
	.align 4




	.globl ihevc_inter_pred_chroma_copy_a9q

	.type ihevc_inter_pred_chroma_copy_a9q, %function

	ihevc_inter_pred_chroma_copy_a9q:
	stmfd sp!, {r4-r12, r14} @stack stores the values of the arguments
	ldr r12,[sp,#48] @loads wd
	lsl r12,r12,#1
	ldr r7,[sp,#44] @loads ht
	cmp r7,#0 @checks ht == 0
	ble end_loops
	and r8,r7,#3 @check ht for mul of 2
	sub r7,r7,r8 @check the rounded height value
	tst r12,#15 @checks wd for multiples for 4 & 8
	beq core_loop_wd_16
	tst r12,#7 @checks wd for multiples for 4 & 8
	beq core_loop_wd_8

	sub r11,r12,#4
	cmp r7,#0
	beq outer_loop_wd_4_ht_2

	outer_loop_wd_4:
	subs r4,r12,#0 @checks wd == 0
	ble end_inner_loop_wd_4

	inner_loop_wd_4:
	vld1.32 {d0[0]},[r0] @vld1_lane_u32((uint32_t *)pu1_src_tmp, src_tmp, 0)
	add r5,r0,r2 @pu1_src_tmp += src_strd
	add r6,r1,r3 @pu1_dst_tmp += dst_strd
	vst1.32 {d0[0]},[r1] @vst1_lane_u32((uint32_t *)pu1_dst_tmp, src_tmp, 0)
	vld1.32 {d0[0]},[r5],r2 @vld1_lane_u32((uint32_t *)pu1_src_tmp, src_tmp, 0)
	add r0,r0,#4 @pu1_src += 4
	vst1.32 {d0[0]},[r6],r3 @vst1_lane_u32((uint32_t *)pu1_dst_tmp, src_tmp, 0)
	vld1.32 {d0[0]},[r5],r2 @vld1_lane_u32((uint32_t *)pu1_src_tmp, src_tmp, 0)
	subs r4,r4,#4 @(wd -4)
	vst1.32 {d0[0]},[r6],r3 @vst1_lane_u32((uint32_t *)pu1_dst_tmp, src_tmp, 0)
	vld1.32 {d0[0]},[r5],r2 @vld1_lane_u32((uint32_t *)pu1_src_tmp, src_tmp, 0)
	add r1,r1,#4 @pu1_dst += 4
	vst1.32 {d0[0]},[r6],r3 @vst1_lane_u32((uint32_t *)pu1_dst_tmp, src_tmp, 0)
	bgt inner_loop_wd_4

	end_inner_loop_wd_4:
	subs r7,r7,#4 @ht - 4
	sub r0,r5,r11 @pu1_src = pu1_src_tmp
	sub r1,r6,r11 @pu1_dst = pu1_dst_tmp
	bgt outer_loop_wd_4
	cmp r8,#0
	bgt outer_loop_wd_4_ht_2

	end_loops:
	ldmfd sp!,{r4-r12,r15} @reload the registers from sp


	outer_loop_wd_4_ht_2:
	subs r4,r12,#0 @checks wd == 0
	ble end_loops

	inner_loop_wd_4_ht_2:
	vld1.32 {d0[0]},[r0] @vld1_lane_u32((uint32_t *)pu1_src_tmp, src_tmp, 0)
	add r5,r0,r2 @pu1_src_tmp += src_strd
	add r6,r1,r3 @pu1_dst_tmp += dst_strd
	vst1.32 {d0[0]},[r1] @vst1_lane_u32((uint32_t *)pu1_dst_tmp, src_tmp, 0)
	vld1.32 {d0[0]},[r5],r2 @vld1_lane_u32((uint32_t *)pu1_src_tmp, src_tmp, 0)
	add r0,r0,#4 @pu1_src += 4
	vst1.32 {d0[0]},[r6],r3 @vst1_lane_u32((uint32_t *)pu1_dst_tmp, src_tmp, 0)
	subs r4,r4,#4 @(wd -4)
	add r1,r1,#4 @pu1_dst += 4
	bgt inner_loop_wd_4_ht_2
	b end_loops

	core_loop_wd_8:
	sub r11,r12,#8
	cmp r7,#0
	beq outer_loop_wd_8_ht_2

	outer_loop_wd_8:
	subs r4,r12,#0 @checks wd
	ble end_inner_loop_wd_8

	inner_loop_wd_8:
	add r5,r0,r2 @pu1_src_tmp += src_strd
	vld1.8 {d0},[r0]! @vld1_u8(pu1_src_tmp)
	add r6,r1,r3 @pu1_dst_tmp += dst_strd
	vst1.8 {d0},[r1]! @vst1_u8(pu1_dst_tmp, tmp_src)
	vld1.8 {d1},[r5],r2 @vld1_u8(pu1_src_tmp)
	vst1.8 {d1},[r6],r3 @vst1_u8(pu1_dst_tmp, tmp_src)
	subs r4,r4,#8 @wd - 8(loop condition)
	vld1.8 {d2},[r5],r2 @vld1_u8(pu1_src_tmp)
	vst1.8 {d2},[r6],r3 @vst1_u8(pu1_dst_tmp, tmp_src)
	vld1.8 {d3},[r5],r2 @vld1_u8(pu1_src_tmp)
	vst1.8 {d3},[r6],r3 @vst1_u8(pu1_dst_tmp, tmp_src)
	bgt inner_loop_wd_8

	end_inner_loop_wd_8:
	subs r7,r7,#4 @ht -= 4
	sub r0,r5,r11 @pu1_src = pu1_src_tmp
	sub r1,r6,r11 @pu1_dst = pu1_dst_tmp
	bgt outer_loop_wd_8
	cmp r8,#0
	bgt outer_loop_wd_8_ht_2
	b end_loops

	outer_loop_wd_8_ht_2:
	subs r4,r12,#0 @checks wd
	ble end_loops

	inner_loop_wd_8_ht_2:
	add r5,r0,r2 @pu1_src_tmp += src_strd
	vld1.8 {d0},[r0]! @vld1_u8(pu1_src_tmp)
	add r6,r1,r3 @pu1_dst_tmp += dst_strd
	vst1.8 {d0},[r1]! @vst1_u8(pu1_dst_tmp, tmp_src)
	vld1.8 {d1},[r5],r2 @vld1_u8(pu1_src_tmp)
	vst1.8 {d1},[r6],r3 @vst1_u8(pu1_dst_tmp, tmp_src)
	@subs r4,r4,#8 @wd - 8(loop condition)
	@bgt inner_loop_wd_8_ht_2
	b end_loops

	core_loop_wd_16:
	sub r11,r12,#16
	cmp r7,#0
	beq outer_loop_wd_16_ht_2

	outer_loop_wd_16:
	subs r4,r12,#0 @checks wd
	ble end_inner_loop_wd_16

	inner_loop_wd_16:
	add r5,r0,r2 @pu1_src_tmp += src_strd
	vld1.8 {q0},[r0]! @vld1_u8(pu1_src_tmp)
	add r6,r1,r3 @pu1_dst_tmp += dst_strd
	vst1.8 {q0},[r1]! @vst1_u8(pu1_dst_tmp, tmp_src)
	vld1.8 {q1},[r5],r2 @vld1_u8(pu1_src_tmp)
	vst1.8 {q1},[r6],r3 @vst1_u8(pu1_dst_tmp, tmp_src)
	subs r4,r4,#16 @wd - 16(loop condition)
	vld1.8 {q2},[r5],r2 @vld1_u8(pu1_src_tmp)
	vst1.8 {q2},[r6],r3 @vst1_u8(pu1_dst_tmp, tmp_src)
	vld1.8 {q3},[r5],r2 @vld1_u8(pu1_src_tmp)
	vst1.8 {q3},[r6],r3 @vst1_u8(pu1_dst_tmp, tmp_src)
	bgt inner_loop_wd_16

	end_inner_loop_wd_16:
	subs r7,r7,#4 @ht -= 4
	sub r0,r5,r11 @pu1_src = pu1_src_tmp
	sub r1,r6,r11 @pu1_dst = pu1_dst_tmp
	bgt outer_loop_wd_16
	cmp r8,#0
	bgt outer_loop_wd_16_ht_2
	b end_loops

	outer_loop_wd_16_ht_2:
	subs r4,r12,#0 @checks wd
	ble end_loops

	inner_loop_wd_16_ht_2:
	add r5,r0,r2 @pu1_src_tmp += src_strd
	vld1.8 {q0},[r0]! @vld1_u8(pu1_src_tmp)
	add r6,r1,r3 @pu1_dst_tmp += dst_strd
	vst1.8 {q0},[r1]! @vst1_u8(pu1_dst_tmp, tmp_src)
	vld1.8 {q1},[r5],r2 @vld1_u8(pu1_src_tmp)
	vst1.8 {q1},[r6],r3 @vst1_u8(pu1_dst_tmp, tmp_src)
	@subs r4,r4,#16 @wd - 16(loop condition)
	@bgt inner_loop_wd_16_ht_2

	ldmfd sp!,{r4-r12,r15} @reload the registers from sp