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dd61d6489b
x64 always has MMX, MMXEXT, SSE and SSE2 and this means that some functions for MMX, MMXEXT, SSE and 3dnow are always overridden by other functions (unless one e.g. explicitly disables SSE2). So given that the only systems which benefit from the MMXEXT resamplers (which are overridden by SSE2) are truely ancient 32bit x86s they are removed. Signed-off-by: Andreas Rheinhardt <andreas.rheinhardt@outlook.com>
615 lines
23 KiB
NASM
615 lines
23 KiB
NASM
;******************************************************************************
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;* Copyright (c) 2012 Michael Niedermayer
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;* Copyright (c) 2014 James Almer <jamrial <at> gmail.com>
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;* Copyright (c) 2014 Ronald S. Bultje <rsbultje@gmail.com>
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;*
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;* This file is part of FFmpeg.
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;*
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;* FFmpeg is free software; you can redistribute it and/or
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;* modify it under the terms of the GNU Lesser General Public
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;* License as published by the Free Software Foundation; either
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;* version 2.1 of the License, or (at your option) any later version.
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;*
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;* FFmpeg is distributed in the hope that it will be useful,
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;* but WITHOUT ANY WARRANTY; without even the implied warranty of
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;* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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;* Lesser General Public License for more details.
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;*
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;* You should have received a copy of the GNU Lesser General Public
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;* License along with FFmpeg; if not, write to the Free Software
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;* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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;******************************************************************************
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%include "libavutil/x86/x86util.asm"
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%if ARCH_X86_64
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%define pointer resq
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%else
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%define pointer resd
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%endif
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struc ResampleContext
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.av_class: pointer 1
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.filter_bank: pointer 1
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.filter_length: resd 1
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.filter_alloc: resd 1
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.ideal_dst_incr: resd 1
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.dst_incr: resd 1
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.dst_incr_div: resd 1
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.dst_incr_mod: resd 1
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.index: resd 1
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.frac: resd 1
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.src_incr: resd 1
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.compensation_distance: resd 1
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.phase_count: resd 1
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; there's a few more here but we only care about the first few
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endstruc
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SECTION_RODATA
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pf_1: dd 1.0
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pdbl_1: dq 1.0
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pd_0x4000: dd 0x4000
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SECTION .text
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; FIXME remove unneeded variables (index_incr, phase_mask)
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%macro RESAMPLE_FNS 3-5 ; format [float or int16], bps, log2_bps, float op suffix [s or d], 1.0 constant
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; int resample_common_$format(ResampleContext *ctx, $format *dst,
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; const $format *src, int size, int update_ctx)
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%if ARCH_X86_64 ; unix64 and win64
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cglobal resample_common_%1, 0, 15, 2, ctx, dst, src, phase_count, index, frac, \
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dst_incr_mod, size, min_filter_count_x4, \
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min_filter_len_x4, dst_incr_div, src_incr, \
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phase_mask, dst_end, filter_bank
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; use red-zone for variable storage
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%define ctx_stackq [rsp-0x8]
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%define src_stackq [rsp-0x10]
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%if WIN64
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%define update_context_stackd r4m
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%else ; unix64
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%define update_context_stackd [rsp-0x14]
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%endif
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; load as many variables in registers as possible; for the rest, store
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; on stack so that we have 'ctx' available as one extra register
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mov sized, r3d
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%if UNIX64
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mov update_context_stackd, r4d
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%endif
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mov indexd, [ctxq+ResampleContext.index]
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mov fracd, [ctxq+ResampleContext.frac]
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mov dst_incr_modd, [ctxq+ResampleContext.dst_incr_mod]
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mov filter_bankq, [ctxq+ResampleContext.filter_bank]
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mov src_incrd, [ctxq+ResampleContext.src_incr]
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mov ctx_stackq, ctxq
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mov min_filter_len_x4d, [ctxq+ResampleContext.filter_length]
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mov dst_incr_divd, [ctxq+ResampleContext.dst_incr_div]
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shl min_filter_len_x4d, %3
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lea dst_endq, [dstq+sizeq*%2]
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%if UNIX64
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mov ecx, [ctxq+ResampleContext.phase_count]
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mov edi, [ctxq+ResampleContext.filter_alloc]
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DEFINE_ARGS filter_alloc, dst, src, phase_count, index, frac, dst_incr_mod, \
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filter, min_filter_count_x4, min_filter_len_x4, dst_incr_div, \
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src_incr, phase_mask, dst_end, filter_bank
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%elif WIN64
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mov R9d, [ctxq+ResampleContext.filter_alloc]
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mov ecx, [ctxq+ResampleContext.phase_count]
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DEFINE_ARGS phase_count, dst, src, filter_alloc, index, frac, dst_incr_mod, \
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filter, min_filter_count_x4, min_filter_len_x4, dst_incr_div, \
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src_incr, phase_mask, dst_end, filter_bank
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%endif
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neg min_filter_len_x4q
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sub filter_bankq, min_filter_len_x4q
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sub srcq, min_filter_len_x4q
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mov src_stackq, srcq
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%else ; x86-32
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cglobal resample_common_%1, 1, 7, 2, ctx, phase_count, dst, frac, \
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index, min_filter_length_x4, filter_bank
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; push temp variables to stack
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%define ctx_stackq r0mp
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%define src_stackq r2mp
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%define update_context_stackd r4m
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mov dstq, r1mp
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mov r3, r3mp
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lea r3, [dstq+r3*%2]
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PUSH dword [ctxq+ResampleContext.dst_incr_div]
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PUSH dword [ctxq+ResampleContext.dst_incr_mod]
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PUSH dword [ctxq+ResampleContext.filter_alloc]
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PUSH r3
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PUSH dword [ctxq+ResampleContext.phase_count] ; unneeded replacement for phase_mask
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PUSH dword [ctxq+ResampleContext.src_incr]
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mov min_filter_length_x4d, [ctxq+ResampleContext.filter_length]
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mov indexd, [ctxq+ResampleContext.index]
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shl min_filter_length_x4d, %3
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mov fracd, [ctxq+ResampleContext.frac]
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neg min_filter_length_x4q
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mov filter_bankq, [ctxq+ResampleContext.filter_bank]
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sub r2mp, min_filter_length_x4q
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sub filter_bankq, min_filter_length_x4q
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PUSH min_filter_length_x4q
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PUSH filter_bankq
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mov phase_countd, [ctxq+ResampleContext.phase_count]
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DEFINE_ARGS src, phase_count, dst, frac, index, min_filter_count_x4, filter
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%define filter_bankq dword [rsp+0x0]
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%define min_filter_length_x4q dword [rsp+0x4]
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%define src_incrd dword [rsp+0x8]
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%define phase_maskd dword [rsp+0xc]
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%define dst_endq dword [rsp+0x10]
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%define filter_allocd dword [rsp+0x14]
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%define dst_incr_modd dword [rsp+0x18]
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%define dst_incr_divd dword [rsp+0x1c]
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mov srcq, r2mp
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%endif
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.loop:
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mov filterd, filter_allocd
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imul filterd, indexd
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%if ARCH_X86_64
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mov min_filter_count_x4q, min_filter_len_x4q
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lea filterq, [filter_bankq+filterq*%2]
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%else ; x86-32
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mov min_filter_count_x4q, filter_bankq
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lea filterq, [min_filter_count_x4q+filterq*%2]
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mov min_filter_count_x4q, min_filter_length_x4q
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%endif
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%ifidn %1, int16
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movd m0, [pd_0x4000]
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%else ; float/double
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xorps m0, m0, m0
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%endif
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align 16
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.inner_loop:
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movu m1, [srcq+min_filter_count_x4q*1]
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%ifidn %1, int16
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%if cpuflag(xop)
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vpmadcswd m0, m1, [filterq+min_filter_count_x4q*1], m0
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%else
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pmaddwd m1, [filterq+min_filter_count_x4q*1]
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paddd m0, m1
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%endif
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%else ; float/double
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%if cpuflag(fma4) || cpuflag(fma3)
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fmaddp%4 m0, m1, [filterq+min_filter_count_x4q*1], m0
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%else
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mulp%4 m1, m1, [filterq+min_filter_count_x4q*1]
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addp%4 m0, m0, m1
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%endif ; cpuflag
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%endif
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add min_filter_count_x4q, mmsize
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js .inner_loop
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%ifidn %1, int16
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HADDD m0, m1
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psrad m0, 15
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add fracd, dst_incr_modd
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packssdw m0, m0
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add indexd, dst_incr_divd
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movd [dstq], m0
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%else ; float/double
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; horizontal sum & store
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%if mmsize == 32
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vextractf128 xm1, m0, 0x1
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addp%4 xm0, xm1
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%endif
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movhlps xm1, xm0
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%ifidn %1, float
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addps xm0, xm1
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shufps xm1, xm0, xm0, q0001
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%endif
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add fracd, dst_incr_modd
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addp%4 xm0, xm1
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add indexd, dst_incr_divd
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movs%4 [dstq], xm0
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%endif
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cmp fracd, src_incrd
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jl .skip
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sub fracd, src_incrd
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inc indexd
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%if UNIX64
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DEFINE_ARGS filter_alloc, dst, src, phase_count, index, frac, dst_incr_mod, \
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index_incr, min_filter_count_x4, min_filter_len_x4, dst_incr_div, \
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src_incr, phase_mask, dst_end, filter_bank
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%elif WIN64
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DEFINE_ARGS phase_count, dst, src, filter_alloc, index, frac, dst_incr_mod, \
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index_incr, min_filter_count_x4, min_filter_len_x4, dst_incr_div, \
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src_incr, phase_mask, dst_end, filter_bank
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%else ; x86-32
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DEFINE_ARGS src, phase_count, dst, frac, index, index_incr
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%endif
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.skip:
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add dstq, %2
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cmp indexd, phase_countd
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jb .index_skip
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.index_while:
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sub indexd, phase_countd
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lea srcq, [srcq+%2]
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cmp indexd, phase_countd
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jnb .index_while
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.index_skip:
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cmp dstq, dst_endq
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jne .loop
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%if ARCH_X86_64
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DEFINE_ARGS ctx, dst, src, phase_count, index, frac
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%else ; x86-32
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DEFINE_ARGS src, ctx, update_context, frac, index
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%endif
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cmp dword update_context_stackd, 0
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jz .skip_store
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; strictly speaking, the function should always return the consumed
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; number of bytes; however, we only use the value if update_context
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; is true, so let's just leave it uninitialized otherwise
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mov ctxq, ctx_stackq
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movifnidn rax, srcq
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mov [ctxq+ResampleContext.frac ], fracd
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sub rax, src_stackq
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mov [ctxq+ResampleContext.index], indexd
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shr rax, %3
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.skip_store:
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%if ARCH_X86_32
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ADD rsp, 0x20
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%endif
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RET
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; int resample_linear_$format(ResampleContext *ctx, float *dst,
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; const float *src, int size, int update_ctx)
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%if ARCH_X86_64 ; unix64 and win64
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%if UNIX64
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cglobal resample_linear_%1, 0, 15, 5, ctx, dst, phase_mask, phase_count, index, frac, \
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size, dst_incr_mod, min_filter_count_x4, \
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min_filter_len_x4, dst_incr_div, src_incr, \
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src, dst_end, filter_bank
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mov srcq, r2mp
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%else ; win64
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cglobal resample_linear_%1, 0, 15, 5, ctx, phase_mask, src, phase_count, index, frac, \
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size, dst_incr_mod, min_filter_count_x4, \
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min_filter_len_x4, dst_incr_div, src_incr, \
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dst, dst_end, filter_bank
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mov dstq, r1mp
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%endif
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; use red-zone for variable storage
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%define ctx_stackq [rsp-0x8]
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%define src_stackq [rsp-0x10]
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%define phase_mask_stackd [rsp-0x14]
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%if WIN64
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%define update_context_stackd r4m
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%else ; unix64
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%define update_context_stackd [rsp-0x18]
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%endif
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; load as many variables in registers as possible; for the rest, store
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; on stack so that we have 'ctx' available as one extra register
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mov sized, r3d
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%if UNIX64
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mov update_context_stackd, r4d
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%endif
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mov indexd, [ctxq+ResampleContext.index]
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mov fracd, [ctxq+ResampleContext.frac]
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mov dst_incr_modd, [ctxq+ResampleContext.dst_incr_mod]
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mov filter_bankq, [ctxq+ResampleContext.filter_bank]
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mov src_incrd, [ctxq+ResampleContext.src_incr]
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mov ctx_stackq, ctxq
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mov min_filter_len_x4d, [ctxq+ResampleContext.filter_length]
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%ifidn %1, int16
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movd m4, [pd_0x4000]
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%else ; float/double
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cvtsi2s%4 xm0, src_incrd
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movs%4 xm4, [%5]
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divs%4 xm4, xm0
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%endif
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mov dst_incr_divd, [ctxq+ResampleContext.dst_incr_div]
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shl min_filter_len_x4d, %3
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lea dst_endq, [dstq+sizeq*%2]
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%if UNIX64
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mov ecx, [ctxq+ResampleContext.phase_count]
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mov edi, [ctxq+ResampleContext.filter_alloc]
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DEFINE_ARGS filter_alloc, dst, filter2, phase_count, index, frac, filter1, \
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dst_incr_mod, min_filter_count_x4, min_filter_len_x4, \
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dst_incr_div, src_incr, src, dst_end, filter_bank
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%elif WIN64
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mov R9d, [ctxq+ResampleContext.filter_alloc]
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mov ecx, [ctxq+ResampleContext.phase_count]
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DEFINE_ARGS phase_count, filter2, src, filter_alloc, index, frac, filter1, \
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dst_incr_mod, min_filter_count_x4, min_filter_len_x4, \
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dst_incr_div, src_incr, dst, dst_end, filter_bank
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%endif
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neg min_filter_len_x4q
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sub filter_bankq, min_filter_len_x4q
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sub srcq, min_filter_len_x4q
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mov src_stackq, srcq
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%else ; x86-32
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cglobal resample_linear_%1, 1, 7, 5, ctx, min_filter_length_x4, filter2, \
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frac, index, dst, filter_bank
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; push temp variables to stack
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%define ctx_stackq r0mp
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%define src_stackq r2mp
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%define update_context_stackd r4m
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mov dstq, r1mp
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mov r3, r3mp
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lea r3, [dstq+r3*%2]
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PUSH dword [ctxq+ResampleContext.dst_incr_div]
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PUSH r3
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mov r3, dword [ctxq+ResampleContext.filter_alloc]
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PUSH dword [ctxq+ResampleContext.dst_incr_mod]
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PUSH r3
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shl r3, %3
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PUSH r3
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mov r3, dword [ctxq+ResampleContext.src_incr]
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PUSH dword [ctxq+ResampleContext.phase_count] ; unneeded replacement of phase_mask
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PUSH r3d
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%ifidn %1, int16
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movd m4, [pd_0x4000]
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%else ; float/double
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cvtsi2s%4 xm0, r3d
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movs%4 xm4, [%5]
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divs%4 xm4, xm0
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%endif
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mov min_filter_length_x4d, [ctxq+ResampleContext.filter_length]
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mov indexd, [ctxq+ResampleContext.index]
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shl min_filter_length_x4d, %3
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mov fracd, [ctxq+ResampleContext.frac]
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neg min_filter_length_x4q
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mov filter_bankq, [ctxq+ResampleContext.filter_bank]
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sub r2mp, min_filter_length_x4q
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sub filter_bankq, min_filter_length_x4q
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PUSH min_filter_length_x4q
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PUSH filter_bankq
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PUSH dword [ctxq+ResampleContext.phase_count]
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DEFINE_ARGS filter1, min_filter_count_x4, filter2, frac, index, dst, src
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%define phase_count_stackd dword [rsp+0x0]
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%define filter_bankq dword [rsp+0x4]
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%define min_filter_length_x4q dword [rsp+0x8]
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%define src_incrd dword [rsp+0xc]
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%define phase_mask_stackd dword [rsp+0x10]
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%define filter_alloc_x4q dword [rsp+0x14]
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%define filter_allocd dword [rsp+0x18]
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%define dst_incr_modd dword [rsp+0x1c]
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%define dst_endq dword [rsp+0x20]
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%define dst_incr_divd dword [rsp+0x24]
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mov srcq, r2mp
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%endif
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.loop:
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mov filter1d, filter_allocd
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imul filter1d, indexd
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%if ARCH_X86_64
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mov min_filter_count_x4q, min_filter_len_x4q
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lea filter1q, [filter_bankq+filter1q*%2]
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lea filter2q, [filter1q+filter_allocq*%2]
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%else ; x86-32
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mov min_filter_count_x4q, filter_bankq
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lea filter1q, [min_filter_count_x4q+filter1q*%2]
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mov min_filter_count_x4q, min_filter_length_x4q
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mov filter2q, filter1q
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add filter2q, filter_alloc_x4q
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%endif
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%ifidn %1, int16
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mova m0, m4
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mova m2, m4
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%else ; float/double
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xorps m0, m0, m0
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xorps m2, m2, m2
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%endif
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align 16
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.inner_loop:
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movu m1, [srcq+min_filter_count_x4q*1]
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%ifidn %1, int16
|
|
%if cpuflag(xop)
|
|
vpmadcswd m2, m1, [filter2q+min_filter_count_x4q*1], m2
|
|
vpmadcswd m0, m1, [filter1q+min_filter_count_x4q*1], m0
|
|
%else
|
|
pmaddwd m3, m1, [filter2q+min_filter_count_x4q*1]
|
|
pmaddwd m1, [filter1q+min_filter_count_x4q*1]
|
|
paddd m2, m3
|
|
paddd m0, m1
|
|
%endif ; cpuflag
|
|
%else ; float/double
|
|
%if cpuflag(fma4) || cpuflag(fma3)
|
|
fmaddp%4 m2, m1, [filter2q+min_filter_count_x4q*1], m2
|
|
fmaddp%4 m0, m1, [filter1q+min_filter_count_x4q*1], m0
|
|
%else
|
|
mulp%4 m3, m1, [filter2q+min_filter_count_x4q*1]
|
|
mulp%4 m1, m1, [filter1q+min_filter_count_x4q*1]
|
|
addp%4 m2, m2, m3
|
|
addp%4 m0, m0, m1
|
|
%endif ; cpuflag
|
|
%endif
|
|
add min_filter_count_x4q, mmsize
|
|
js .inner_loop
|
|
|
|
%ifidn %1, int16
|
|
%if mmsize == 16
|
|
%if cpuflag(xop)
|
|
vphadddq m2, m2
|
|
vphadddq m0, m0
|
|
%endif
|
|
pshufd m3, m2, q0032
|
|
pshufd m1, m0, q0032
|
|
paddd m2, m3
|
|
paddd m0, m1
|
|
%endif
|
|
%if notcpuflag(xop)
|
|
PSHUFLW m3, m2, q0032
|
|
PSHUFLW m1, m0, q0032
|
|
paddd m2, m3
|
|
paddd m0, m1
|
|
%endif
|
|
psubd m2, m0
|
|
; This is probably a really bad idea on atom and other machines with a
|
|
; long transfer latency between GPRs and XMMs (atom). However, it does
|
|
; make the clip a lot simpler...
|
|
movd eax, m2
|
|
add indexd, dst_incr_divd
|
|
imul fracd
|
|
idiv src_incrd
|
|
movd m1, eax
|
|
add fracd, dst_incr_modd
|
|
paddd m0, m1
|
|
psrad m0, 15
|
|
packssdw m0, m0
|
|
movd [dstq], m0
|
|
|
|
; note that for imul/idiv, I need to move filter to edx/eax for each:
|
|
; - 32bit: eax=r0[filter1], edx=r2[filter2]
|
|
; - win64: eax=r6[filter1], edx=r1[todo]
|
|
; - unix64: eax=r6[filter1], edx=r2[todo]
|
|
%else ; float/double
|
|
; val += (v2 - val) * (FELEML) frac / c->src_incr;
|
|
%if mmsize == 32
|
|
vextractf128 xm1, m0, 0x1
|
|
vextractf128 xm3, m2, 0x1
|
|
addp%4 xm0, xm1
|
|
addp%4 xm2, xm3
|
|
%endif
|
|
cvtsi2s%4 xm1, fracd
|
|
subp%4 xm2, xm0
|
|
mulp%4 xm1, xm4
|
|
shufp%4 xm1, xm1, q0000
|
|
%if cpuflag(fma4) || cpuflag(fma3)
|
|
fmaddp%4 xm0, xm2, xm1, xm0
|
|
%else
|
|
mulp%4 xm2, xm1
|
|
addp%4 xm0, xm2
|
|
%endif ; cpuflag
|
|
|
|
; horizontal sum & store
|
|
movhlps xm1, xm0
|
|
%ifidn %1, float
|
|
addps xm0, xm1
|
|
shufps xm1, xm0, xm0, q0001
|
|
%endif
|
|
add fracd, dst_incr_modd
|
|
addp%4 xm0, xm1
|
|
add indexd, dst_incr_divd
|
|
movs%4 [dstq], xm0
|
|
%endif
|
|
cmp fracd, src_incrd
|
|
jl .skip
|
|
sub fracd, src_incrd
|
|
inc indexd
|
|
|
|
%if UNIX64
|
|
DEFINE_ARGS filter_alloc, dst, filter2, phase_count, index, frac, index_incr, \
|
|
dst_incr_mod, min_filter_count_x4, min_filter_len_x4, \
|
|
dst_incr_div, src_incr, src, dst_end, filter_bank
|
|
%elif WIN64
|
|
DEFINE_ARGS phase_count, filter2, src, filter_alloc, index, frac, index_incr, \
|
|
dst_incr_mod, min_filter_count_x4, min_filter_len_x4, \
|
|
dst_incr_div, src_incr, dst, dst_end, filter_bank
|
|
%else ; x86-32
|
|
DEFINE_ARGS filter1, phase_count, index_incr, frac, index, dst, src
|
|
%endif
|
|
|
|
.skip:
|
|
%if ARCH_X86_32
|
|
mov phase_countd, phase_count_stackd
|
|
%endif
|
|
add dstq, %2
|
|
cmp indexd, phase_countd
|
|
jb .index_skip
|
|
.index_while:
|
|
sub indexd, phase_countd
|
|
lea srcq, [srcq+%2]
|
|
cmp indexd, phase_countd
|
|
jnb .index_while
|
|
.index_skip:
|
|
cmp dstq, dst_endq
|
|
jne .loop
|
|
|
|
%if UNIX64
|
|
DEFINE_ARGS ctx, dst, filter2, phase_count, index, frac, index_incr, \
|
|
dst_incr_mod, min_filter_count_x4, min_filter_len_x4, \
|
|
dst_incr_div, src_incr, src, dst_end, filter_bank
|
|
%elif WIN64
|
|
DEFINE_ARGS ctx, filter2, src, phase_count, index, frac, index_incr, \
|
|
dst_incr_mod, min_filter_count_x4, min_filter_len_x4, \
|
|
dst_incr_div, src_incr, dst, dst_end, filter_bank
|
|
%else ; x86-32
|
|
DEFINE_ARGS filter1, ctx, update_context, frac, index, dst, src
|
|
%endif
|
|
|
|
cmp dword update_context_stackd, 0
|
|
jz .skip_store
|
|
; strictly speaking, the function should always return the consumed
|
|
; number of bytes; however, we only use the value if update_context
|
|
; is true, so let's just leave it uninitialized otherwise
|
|
mov ctxq, ctx_stackq
|
|
movifnidn rax, srcq
|
|
mov [ctxq+ResampleContext.frac ], fracd
|
|
sub rax, src_stackq
|
|
mov [ctxq+ResampleContext.index], indexd
|
|
shr rax, %3
|
|
|
|
.skip_store:
|
|
%if ARCH_X86_32
|
|
ADD rsp, 0x28
|
|
%endif
|
|
RET
|
|
%endmacro
|
|
|
|
INIT_XMM sse
|
|
RESAMPLE_FNS float, 4, 2, s, pf_1
|
|
|
|
%if HAVE_AVX_EXTERNAL
|
|
INIT_YMM avx
|
|
RESAMPLE_FNS float, 4, 2, s, pf_1
|
|
%endif
|
|
%if HAVE_FMA3_EXTERNAL
|
|
INIT_YMM fma3
|
|
RESAMPLE_FNS float, 4, 2, s, pf_1
|
|
%endif
|
|
%if HAVE_FMA4_EXTERNAL
|
|
INIT_XMM fma4
|
|
RESAMPLE_FNS float, 4, 2, s, pf_1
|
|
%endif
|
|
|
|
INIT_XMM sse2
|
|
RESAMPLE_FNS int16, 2, 1
|
|
%if HAVE_XOP_EXTERNAL
|
|
INIT_XMM xop
|
|
RESAMPLE_FNS int16, 2, 1
|
|
%endif
|
|
|
|
INIT_XMM sse2
|
|
RESAMPLE_FNS double, 8, 3, d, pdbl_1
|
|
|
|
%if HAVE_AVX_EXTERNAL
|
|
INIT_YMM avx
|
|
RESAMPLE_FNS double, 8, 3, d, pdbl_1
|
|
%endif
|
|
%if HAVE_FMA3_EXTERNAL
|
|
INIT_YMM fma3
|
|
RESAMPLE_FNS double, 8, 3, d, pdbl_1
|
|
%endif
|