| ; |
| ; Copyright (c) 2016, Alliance for Open Media. All rights reserved. |
| ; |
| ; This source code is subject to the terms of the BSD 2 Clause License and |
| ; the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License |
| ; was not distributed with this source code in the LICENSE file, you can |
| ; obtain it at www.aomedia.org/license/software. If the Alliance for Open |
| ; Media Patent License 1.0 was not distributed with this source code in the |
| ; PATENTS file, you can obtain it at www.aomedia.org/license/patent. |
| ; |
| |
| ; |
| |
| %include "third_party/x86inc/x86inc.asm" |
| |
| SECTION .text |
| |
| ; 'spill_src_stride' affect a lot how the code works. |
| ; |
| ; When 'spill_src_stride' is false, the 'src_strideq' resides in |
| ; register, [srcq + src_strideq + offset] is allowed, so we can simply |
| ; use such form to access src memory and don't bother to update 'srcq' |
| ; at each line. We only update 'srcq' each two-lines using a compact |
| ; LEA instruction like [srcq+src_strideq*2]. |
| ; |
| ; When 'spill_src_stride' is true, the 'src_strideq' resides in memory. |
| ; we cannot use above form to access memory, we have to update |
| ; 'srcq' at each line break. As we process two parts (first,second) |
| ; together in each macro function, the second part may also sit |
| ; in the next line, which means we also need to possibly add |
| ; one 'src_strideq' to 'srcq' before processing second part. |
| |
| %macro HANDLE_SECOND_OFFSET 0 |
| %if spill_src_stride |
| %define second_offset 0 |
| add srcq, src_strideq |
| %else |
| %define second_offset (src_strideq) |
| %endif |
| %endmacro |
| |
| ; This is specically designed to handle when src_strideq is a |
| ; memory position, under such case, we can not accomplish |
| ; complex address calculation using LEA, and fall back to |
| ; using simple ADD instruction at each line ending. |
| %macro ADVANCE_END_OF_TWO_LINES 0 |
| %if spill_src_stride |
| add srcq, src_strideq |
| %else |
| lea srcq, [srcq+src_strideq*2] |
| %endif |
| |
| ; note: ref_stride is never spilled when processing two lines |
| lea ref1q, [ref1q+ref_strideq*2] |
| lea ref2q, [ref2q+ref_strideq*2] |
| lea ref3q, [ref3q+ref_strideq*2] |
| lea ref4q, [ref4q+ref_strideq*2] |
| %endmacro |
| |
| ; PROCESS_4x2x4 first |
| %macro PROCESS_4x2x4 1 |
| movd m0, [srcq] |
| HANDLE_SECOND_OFFSET |
| %if %1 == 1 |
| movd m6, [ref1q] |
| movd m4, [ref2q] |
| movd m7, [ref3q] |
| movd m5, [ref4q] |
| |
| movd m1, [srcq + second_offset] |
| movd m2, [ref1q+ref_strideq] |
| punpckldq m0, m1 |
| punpckldq m6, m2 |
| movd m1, [ref2q+ref_strideq] |
| movd m2, [ref3q+ref_strideq] |
| movd m3, [ref4q+ref_strideq] |
| punpckldq m4, m1 |
| punpckldq m7, m2 |
| punpckldq m5, m3 |
| movlhps m0, m0 |
| movlhps m6, m4 |
| movlhps m7, m5 |
| psadbw m6, m0 |
| psadbw m7, m0 |
| %else |
| movd m1, [ref1q] |
| movd m5, [ref1q+ref_strideq] |
| movd m2, [ref2q] |
| movd m4, [ref2q+ref_strideq] |
| punpckldq m1, m5 |
| punpckldq m2, m4 |
| movd m3, [ref3q] |
| movd m5, [ref3q+ref_strideq] |
| punpckldq m3, m5 |
| movd m4, [ref4q] |
| movd m5, [ref4q+ref_strideq] |
| punpckldq m4, m5 |
| movd m5, [srcq + second_offset] |
| punpckldq m0, m5 |
| movlhps m0, m0 |
| movlhps m1, m2 |
| movlhps m3, m4 |
| psadbw m1, m0 |
| psadbw m3, m0 |
| paddd m6, m1 |
| paddd m7, m3 |
| %endif |
| %endmacro |
| |
| ; PROCESS_8x2x4 first |
| %macro PROCESS_8x2x4 1 |
| movh m0, [srcq] |
| HANDLE_SECOND_OFFSET |
| %if %1 == 1 |
| movh m4, [ref1q] |
| movh m5, [ref2q] |
| movh m6, [ref3q] |
| movh m7, [ref4q] |
| movhps m0, [srcq + second_offset] |
| movhps m4, [ref1q+ref_strideq] |
| movhps m5, [ref2q+ref_strideq] |
| movhps m6, [ref3q+ref_strideq] |
| movhps m7, [ref4q+ref_strideq] |
| psadbw m4, m0 |
| psadbw m5, m0 |
| psadbw m6, m0 |
| psadbw m7, m0 |
| %else |
| movh m1, [ref1q] |
| movh m2, [ref2q] |
| movhps m0, [srcq + second_offset] |
| movhps m1, [ref1q+ref_strideq] |
| movhps m2, [ref2q+ref_strideq] |
| psadbw m1, m0 |
| psadbw m2, m0 |
| paddd m4, m1 |
| paddd m5, m2 |
| |
| movh m1, [ref3q] |
| movhps m1, [ref3q+ref_strideq] |
| movh m2, [ref4q] |
| movhps m2, [ref4q+ref_strideq] |
| psadbw m1, m0 |
| psadbw m2, m0 |
| paddd m6, m1 |
| paddd m7, m2 |
| %endif |
| %endmacro |
| |
| ; PROCESS_FIRST_MMSIZE |
| %macro PROCESS_FIRST_MMSIZE 0 |
| mova m0, [srcq] |
| movu m4, [ref1q] |
| movu m5, [ref2q] |
| movu m6, [ref3q] |
| movu m7, [ref4q] |
| psadbw m4, m0 |
| psadbw m5, m0 |
| psadbw m6, m0 |
| psadbw m7, m0 |
| %endmacro |
| |
| ; PROCESS_16x1x4 offset |
| %macro PROCESS_16x1x4 1 |
| mova m0, [srcq + %1] |
| movu m1, [ref1q + ref_offsetq + %1] |
| movu m2, [ref2q + ref_offsetq + %1] |
| psadbw m1, m0 |
| psadbw m2, m0 |
| paddd m4, m1 |
| paddd m5, m2 |
| |
| movu m1, [ref3q + ref_offsetq + %1] |
| movu m2, [ref4q + ref_offsetq + %1] |
| psadbw m1, m0 |
| psadbw m2, m0 |
| paddd m6, m1 |
| paddd m7, m2 |
| %endmacro |
| |
| ; void aom_sadNxNx4d_sse2(uint8_t *src, int src_stride, |
| ; uint8_t *ref[4], int ref_stride, |
| ; uint32_t res[4]); |
| ; Macro Arguments: |
| ; 1: Width |
| ; 2: Height |
| ; 3: If 0, then normal sad, else skip rows |
| %macro SADNXN4D 2-3 0 |
| |
| %define spill_src_stride 0 |
| %define spill_ref_stride 0 |
| %define spill_cnt 0 |
| |
| ; Whether a shared offset should be used instead of adding strides to |
| ; each reference array. With this option, only one line will be processed |
| ; per loop iteration. |
| %define use_ref_offset (%1 >= mmsize) |
| |
| ; Remove loops in the 4x4 and 8x4 case |
| %define use_loop (use_ref_offset || %2 > 4) |
| |
| %if %3 == 1 ; skip rows |
| %if AOM_ARCH_X86_64 |
| %if use_ref_offset |
| cglobal sad_skip_%1x%2x4d, 5, 10, 8, src, src_stride, ref1, ref_stride, res, \ |
| ref2, ref3, ref4, cnt, ref_offset |
| %elif use_loop |
| cglobal sad_skip_%1x%2x4d, 5, 9, 8, src, src_stride, ref1, ref_stride, res, \ |
| ref2, ref3, ref4, cnt |
| %else |
| cglobal sad_skip_%1x%2x4d, 5, 8, 8, src, src_stride, ref1, ref_stride, res, \ |
| ref2, ref3, ref4 |
| %endif |
| %else |
| %if use_ref_offset |
| cglobal sad_skip_%1x%2x4d, 4, 7, 8, src, ref_offset, ref1, cnt, ref2, ref3, \ |
| ref4 |
| %define spill_src_stride 1 |
| %define spill_ref_stride 1 |
| %elif use_loop |
| cglobal sad_skip_%1x%2x4d, 4, 7, 8, src, cnt, ref1, ref_stride, ref2, \ |
| ref3, ref4 |
| %define spill_src_stride 1 |
| %else |
| cglobal sad_skip_%1x%2x4d, 4, 7, 8, src, src_stride, ref1, ref_stride, ref2, \ |
| ref3, ref4 |
| %endif |
| %endif |
| %else ; normal sad |
| %if AOM_ARCH_X86_64 |
| %if use_ref_offset |
| cglobal sad%1x%2x4d, 5, 10, 8, src, src_stride, ref1, ref_stride, res, ref2, \ |
| ref3, ref4, cnt, ref_offset |
| %elif use_loop |
| cglobal sad%1x%2x4d, 5, 9, 8, src, src_stride, ref1, ref_stride, res, ref2, \ |
| ref3, ref4, cnt |
| %else |
| cglobal sad%1x%2x4d, 5, 8, 8, src, src_stride, ref1, ref_stride, res, ref2, \ |
| ref3, ref4 |
| %endif |
| %else |
| %if use_ref_offset |
| cglobal sad%1x%2x4d, 4, 7, 8, src, ref_offset, ref1, cnt, ref2, ref3, ref4 |
| %define spill_src_stride 1 |
| %define spill_ref_stride 1 |
| %elif use_loop |
| cglobal sad%1x%2x4d, 4, 7, 8, src, cnt, ref1, ref_stride, ref2, ref3, ref4 |
| %define spill_src_stride 1 |
| %else |
| cglobal sad%1x%2x4d, 4, 7, 8, src, src_stride, ref1, ref_stride, ref2, ref3, \ |
| ref4 |
| %endif |
| %endif |
| %endif |
| |
| %if spill_src_stride |
| %define src_strideq r1mp |
| %define src_strided r1mp |
| %endif |
| %if spill_ref_stride |
| %define ref_strideq r3mp |
| %define ref_strided r3mp |
| %endif |
| |
| %if spill_cnt |
| SUB rsp, 4 |
| %define cntd word [rsp] |
| %endif |
| |
| %if %3 == 1 |
| sal src_strided, 1 |
| sal ref_strided, 1 |
| %endif |
| movsxdifnidn src_strideq, src_strided |
| movsxdifnidn ref_strideq, ref_strided |
| |
| mov ref2q, [ref1q+gprsize*1] |
| mov ref3q, [ref1q+gprsize*2] |
| mov ref4q, [ref1q+gprsize*3] |
| mov ref1q, [ref1q+gprsize*0] |
| |
| ; Is the loop for this wxh in another function? |
| ; If so, we jump into that function for the loop and returning |
| %define external_loop (use_ref_offset && %1 > mmsize && %1 != %2) |
| |
| %if use_ref_offset |
| PROCESS_FIRST_MMSIZE |
| %if %1 > mmsize |
| mov ref_offsetq, 0 |
| mov cntd, %2 >> %3 |
| ; Jump part way into the loop for the square version of this width |
| %if %3 == 1 |
| jmp mangle(private_prefix %+ _sad_skip_%1x%1x4d %+ SUFFIX).midloop |
| %else |
| jmp mangle(private_prefix %+ _sad%1x%1x4d %+ SUFFIX).midloop |
| %endif |
| %else |
| mov ref_offsetq, ref_strideq |
| add srcq, src_strideq |
| mov cntd, (%2 >> %3) - 1 |
| %endif |
| %if external_loop == 0 |
| .loop: |
| ; Unrolled horizontal loop |
| %assign h_offset 0 |
| %rep %1/mmsize |
| PROCESS_16x1x4 h_offset |
| %if h_offset == 0 |
| ; The first row of the first column is done outside the loop and jumps here |
| .midloop: |
| %endif |
| %assign h_offset h_offset+mmsize |
| %endrep |
| |
| add srcq, src_strideq |
| add ref_offsetq, ref_strideq |
| sub cntd, 1 |
| jnz .loop |
| %endif |
| %else |
| PROCESS_%1x2x4 1 |
| ADVANCE_END_OF_TWO_LINES |
| %if use_loop |
| mov cntd, (%2/2 >> %3) - 1 |
| .loop: |
| %endif |
| PROCESS_%1x2x4 0 |
| %if use_loop |
| ADVANCE_END_OF_TWO_LINES |
| sub cntd, 1 |
| jnz .loop |
| %endif |
| %endif |
| |
| %if spill_cnt |
| ; Undo stack allocation for cnt |
| ADD rsp, 4 |
| %endif |
| |
| %if external_loop == 0 |
| %if %3 == 0 |
| %define resultq r4 |
| %define resultmp r4mp |
| %endif |
| |
| ; Undo modifications on parameters on the stack |
| %if %3 == 1 |
| %if spill_src_stride |
| shr src_strided, 1 |
| %endif |
| %if spill_ref_stride |
| shr ref_strided, 1 |
| %endif |
| %endif |
| |
| %if %1 > 4 |
| pslldq m5, 4 |
| pslldq m7, 4 |
| por m4, m5 |
| por m6, m7 |
| mova m5, m4 |
| mova m7, m6 |
| punpcklqdq m4, m6 |
| punpckhqdq m5, m7 |
| paddd m4, m5 |
| %if %3 == 1 |
| pslld m4, 1 |
| %endif |
| movifnidn resultq, resultmp |
| movu [resultq], m4 |
| RET |
| %else |
| pshufd m6, m6, 0x08 |
| pshufd m7, m7, 0x08 |
| %if %3 == 1 |
| pslld m6, 1 |
| pslld m7, 1 |
| %endif |
| movifnidn resultq, resultmp |
| movq [resultq+0], m6 |
| movq [resultq+8], m7 |
| RET |
| %endif |
| %endif ; external_loop == 0 |
| %endmacro |
| |
| INIT_XMM sse2 |
| SADNXN4D 128, 128 |
| SADNXN4D 128, 64 |
| SADNXN4D 64, 128 |
| SADNXN4D 64, 64 |
| SADNXN4D 64, 32 |
| SADNXN4D 32, 64 |
| SADNXN4D 32, 32 |
| SADNXN4D 32, 16 |
| SADNXN4D 16, 32 |
| SADNXN4D 16, 16 |
| SADNXN4D 16, 8 |
| SADNXN4D 8, 16 |
| SADNXN4D 8, 8 |
| SADNXN4D 8, 4 |
| SADNXN4D 4, 8 |
| SADNXN4D 4, 4 |
| %if CONFIG_REALTIME_ONLY==0 |
| SADNXN4D 4, 16 |
| SADNXN4D 16, 4 |
| SADNXN4D 8, 32 |
| SADNXN4D 32, 8 |
| SADNXN4D 16, 64 |
| SADNXN4D 64, 16 |
| %endif |
| SADNXN4D 128, 128, 1 |
| SADNXN4D 128, 64, 1 |
| SADNXN4D 64, 128, 1 |
| SADNXN4D 64, 64, 1 |
| SADNXN4D 64, 32, 1 |
| SADNXN4D 32, 64, 1 |
| SADNXN4D 32, 32, 1 |
| SADNXN4D 32, 16, 1 |
| SADNXN4D 16, 32, 1 |
| SADNXN4D 16, 16, 1 |
| SADNXN4D 16, 8, 1 |
| SADNXN4D 8, 16, 1 |
| SADNXN4D 8, 8, 1 |
| SADNXN4D 4, 8, 1 |
| %if CONFIG_REALTIME_ONLY==0 |
| SADNXN4D 4, 16, 1 |
| SADNXN4D 8, 32, 1 |
| SADNXN4D 32, 8, 1 |
| SADNXN4D 16, 64, 1 |
| SADNXN4D 64, 16, 1 |
| %endif |
| |
| ; Different assembly is needed when the height gets subsampled to 2 |
| ; SADNXN4D 16, 4, 1 |
| ; SADNXN4D 8, 4, 1 |
| ; SADNXN4D 4, 4, 1 |