ref: 6dd7fd3086ffa8c87a35c955ddaed3e9fa0e292d
dir: /src/arm/mc_init_tmpl.c/
/* * Copyright © 2018, VideoLAN and dav1d authors * Copyright © 2018, Two Orioles, LLC * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #include "src/mc.h" #include "src/cpu.h" decl_mc_fn(BF(dav1d_put_8tap_regular, neon)); decl_mc_fn(BF(dav1d_put_8tap_regular_smooth, neon)); decl_mc_fn(BF(dav1d_put_8tap_regular_sharp, neon)); decl_mc_fn(BF(dav1d_put_8tap_smooth, neon)); decl_mc_fn(BF(dav1d_put_8tap_smooth_regular, neon)); decl_mc_fn(BF(dav1d_put_8tap_smooth_sharp, neon)); decl_mc_fn(BF(dav1d_put_8tap_sharp, neon)); decl_mc_fn(BF(dav1d_put_8tap_sharp_regular, neon)); decl_mc_fn(BF(dav1d_put_8tap_sharp_smooth, neon)); decl_mc_fn(BF(dav1d_put_bilin, neon)); decl_mct_fn(BF(dav1d_prep_8tap_regular, neon)); decl_mct_fn(BF(dav1d_prep_8tap_regular_smooth, neon)); decl_mct_fn(BF(dav1d_prep_8tap_regular_sharp, neon)); decl_mct_fn(BF(dav1d_prep_8tap_smooth, neon)); decl_mct_fn(BF(dav1d_prep_8tap_smooth_regular, neon)); decl_mct_fn(BF(dav1d_prep_8tap_smooth_sharp, neon)); decl_mct_fn(BF(dav1d_prep_8tap_sharp, neon)); decl_mct_fn(BF(dav1d_prep_8tap_sharp_regular, neon)); decl_mct_fn(BF(dav1d_prep_8tap_sharp_smooth, neon)); decl_mct_fn(BF(dav1d_prep_bilin, neon)); decl_avg_fn(BF(dav1d_avg, neon)); decl_w_avg_fn(BF(dav1d_w_avg, neon)); decl_mask_fn(BF(dav1d_mask, neon)); decl_blend_fn(BF(dav1d_blend, neon)); decl_blend_dir_fn(BF(dav1d_blend_h, neon)); decl_blend_dir_fn(BF(dav1d_blend_v, neon)); decl_w_mask_fn(BF(dav1d_w_mask_444, neon)); decl_w_mask_fn(BF(dav1d_w_mask_422, neon)); decl_w_mask_fn(BF(dav1d_w_mask_420, neon)); decl_warp8x8_fn(BF(dav1d_warp_affine_8x8, neon)); decl_warp8x8t_fn(BF(dav1d_warp_affine_8x8t, neon)); decl_emu_edge_fn(BF(dav1d_emu_edge, neon)); void bitfn(dav1d_mc_dsp_init_arm)(Dav1dMCDSPContext *const c) { #define init_mc_fn(type, name, suffix) \ c->mc[type] = BF(dav1d_put_##name, suffix) #define init_mct_fn(type, name, suffix) \ c->mct[type] = BF(dav1d_prep_##name, suffix) const unsigned flags = dav1d_get_cpu_flags(); if (!(flags & DAV1D_ARM_CPU_FLAG_NEON)) return; #if BITDEPTH == 8 || ARCH_AARCH64 init_mc_fn (FILTER_2D_8TAP_REGULAR, 8tap_regular, neon); init_mc_fn (FILTER_2D_8TAP_REGULAR_SMOOTH, 8tap_regular_smooth, neon); init_mc_fn (FILTER_2D_8TAP_REGULAR_SHARP, 8tap_regular_sharp, neon); init_mc_fn (FILTER_2D_8TAP_SMOOTH_REGULAR, 8tap_smooth_regular, neon); init_mc_fn (FILTER_2D_8TAP_SMOOTH, 8tap_smooth, neon); init_mc_fn (FILTER_2D_8TAP_SMOOTH_SHARP, 8tap_smooth_sharp, neon); init_mc_fn (FILTER_2D_8TAP_SHARP_REGULAR, 8tap_sharp_regular, neon); init_mc_fn (FILTER_2D_8TAP_SHARP_SMOOTH, 8tap_sharp_smooth, neon); init_mc_fn (FILTER_2D_8TAP_SHARP, 8tap_sharp, neon); init_mc_fn (FILTER_2D_BILINEAR, bilin, neon); init_mct_fn(FILTER_2D_8TAP_REGULAR, 8tap_regular, neon); init_mct_fn(FILTER_2D_8TAP_REGULAR_SMOOTH, 8tap_regular_smooth, neon); init_mct_fn(FILTER_2D_8TAP_REGULAR_SHARP, 8tap_regular_sharp, neon); init_mct_fn(FILTER_2D_8TAP_SMOOTH_REGULAR, 8tap_smooth_regular, neon); init_mct_fn(FILTER_2D_8TAP_SMOOTH, 8tap_smooth, neon); init_mct_fn(FILTER_2D_8TAP_SMOOTH_SHARP, 8tap_smooth_sharp, neon); init_mct_fn(FILTER_2D_8TAP_SHARP_REGULAR, 8tap_sharp_regular, neon); init_mct_fn(FILTER_2D_8TAP_SHARP_SMOOTH, 8tap_sharp_smooth, neon); init_mct_fn(FILTER_2D_8TAP_SHARP, 8tap_sharp, neon); init_mct_fn(FILTER_2D_BILINEAR, bilin, neon); #endif c->avg = BF(dav1d_avg, neon); c->w_avg = BF(dav1d_w_avg, neon); c->mask = BF(dav1d_mask, neon); #if BITDEPTH == 8 || ARCH_AARCH64 c->blend = BF(dav1d_blend, neon); c->blend_h = BF(dav1d_blend_h, neon); c->blend_v = BF(dav1d_blend_v, neon); c->w_mask[0] = BF(dav1d_w_mask_444, neon); c->w_mask[1] = BF(dav1d_w_mask_422, neon); c->w_mask[2] = BF(dav1d_w_mask_420, neon); c->warp8x8 = BF(dav1d_warp_affine_8x8, neon); c->warp8x8t = BF(dav1d_warp_affine_8x8t, neon); c->emu_edge = BF(dav1d_emu_edge, neon); #endif }