mirror of
https://github.com/webmproject/libwebp.git
synced 2024-11-19 20:08:28 +01:00
NEON: implement alpha-filters (horizontal/vertical/gradient)
gradient-filter code is not much faster, but maybe improvable in the future. Change-Id: Ia16070e409fe8703b02276166f19526917df6b35
This commit is contained in:
parent
db013a8d5c
commit
1de931c669
@ -58,6 +58,7 @@ dsp_dec_srcs := \
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src/dsp/filters.c \
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src/dsp/filters_mips_dsp_r2.c \
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src/dsp/filters_msa.c \
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src/dsp/filters_neon.$(NEON) \
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src/dsp/filters_sse2.c \
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src/dsp/lossless.c \
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src/dsp/lossless_mips_dsp_r2.c \
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@ -203,6 +203,7 @@ DSP_DEC_OBJS = \
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$(DIROBJ)\dsp\filters.obj \
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$(DIROBJ)\dsp\filters_mips_dsp_r2.obj \
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$(DIROBJ)\dsp\filters_msa.obj \
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$(DIROBJ)\dsp\filters_neon.obj \
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$(DIROBJ)\dsp\filters_sse2.obj \
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$(DIROBJ)\dsp\lossless.obj \
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$(DIROBJ)\dsp\lossless_mips_dsp_r2.obj \
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@ -127,6 +127,7 @@ model {
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include "filters.c"
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include "filters_mips_dsp_r2.c"
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include "filters_msa.c"
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include "filters_neon.$NEON"
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include "filters_sse2.c"
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include "lossless.c"
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include "lossless_mips_dsp_r2.c"
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@ -146,6 +146,7 @@ DSP_DEC_OBJS = \
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src/dsp/filters.o \
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src/dsp/filters_mips_dsp_r2.o \
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src/dsp/filters_msa.o \
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src/dsp/filters_neon.o \
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src/dsp/filters_sse2.o \
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src/dsp/lossless.o \
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src/dsp/lossless_mips_dsp_r2.o \
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@ -76,6 +76,7 @@ libwebpdspdecode_sse2_la_CFLAGS = $(libwebpdsp_sse2_la_CFLAGS)
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libwebpdspdecode_neon_la_SOURCES =
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libwebpdspdecode_neon_la_SOURCES += alpha_processing_neon.c
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libwebpdspdecode_neon_la_SOURCES += dec_neon.c
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libwebpdspdecode_neon_la_SOURCES += filters_neon.c
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libwebpdspdecode_neon_la_SOURCES += lossless_neon.c
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libwebpdspdecode_neon_la_SOURCES += neon.h
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libwebpdspdecode_neon_la_SOURCES += rescaler_neon.c
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@ -227,8 +227,9 @@ WebPFilterFunc WebPFilters[WEBP_FILTER_LAST];
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WebPUnfilterFunc WebPUnfilters[WEBP_FILTER_LAST];
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extern void VP8FiltersInitMIPSdspR2(void);
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extern void VP8FiltersInitSSE2(void);
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extern void VP8FiltersInitMSA(void);
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extern void VP8FiltersInitNEON(void);
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extern void VP8FiltersInitSSE2(void);
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static volatile VP8CPUInfo filters_last_cpuinfo_used =
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(VP8CPUInfo)&filters_last_cpuinfo_used;
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@ -252,6 +253,11 @@ WEBP_TSAN_IGNORE_FUNCTION void VP8FiltersInit(void) {
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VP8FiltersInitSSE2();
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}
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#endif
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#if defined(WEBP_USE_NEON)
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if (VP8GetCPUInfo(kNEON)) {
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VP8FiltersInitNEON();
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}
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#endif
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#if defined(WEBP_USE_MIPS_DSP_R2)
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if (VP8GetCPUInfo(kMIPSdspR2)) {
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VP8FiltersInitMIPSdspR2();
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317
src/dsp/filters_neon.c
Normal file
317
src/dsp/filters_neon.c
Normal file
@ -0,0 +1,317 @@
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// Copyright 2017 Google Inc. All Rights Reserved.
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//
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// Use of this source code is governed by a BSD-style license
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// that can be found in the COPYING file in the root of the source
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// tree. An additional intellectual property rights grant can be found
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// in the file PATENTS. All contributing project authors may
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// be found in the AUTHORS file in the root of the source tree.
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// -----------------------------------------------------------------------------
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//
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// NEON variant of alpha filters
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//
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// Author: Skal (pascal.massimino@gmail.com)
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#include "./dsp.h"
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#if defined(WEBP_USE_NEON)
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#include <assert.h>
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#include "./neon.h"
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//------------------------------------------------------------------------------
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// Helpful macros.
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# define SANITY_CHECK(in, out) \
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assert(in != NULL); \
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assert(out != NULL); \
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assert(width > 0); \
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assert(height > 0); \
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assert(stride >= width); \
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assert(row >= 0 && num_rows > 0 && row + num_rows <= height); \
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(void)height; // Silence unused warning.
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// load eight u8 and widen to s16
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#define U8_TO_S16(A) vreinterpretq_s16_u16(vmovl_u8(A))
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#define LOAD_U8_TO_S16(A) U8_TO_S16(vld1_u8(A))
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// shift left or right by N byte, inserting zeros
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#define SHIFT_RIGHT_N_Q(A, N) vextq_u8((A), zero, (N))
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#define SHIFT_LEFT_N_Q(A, N) vextq_u8(zero, (A), (16 - (N)) % 16)
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// rotate left by N bytes
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#define ROTATE_LEFT_N(A, N) vext_u8((A), (A), (N))
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// rotate right by N bytes
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#define ROTATE_RIGHT_N(A, N) vext_u8((A), (A), (8 - (N)) % 8)
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static void PredictLine_NEON(const uint8_t* src, const uint8_t* pred,
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uint8_t* dst, int length) {
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int i;
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assert(length >= 0);
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for (i = 0; i + 16 <= length; i += 16) {
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const uint8x16_t A = vld1q_u8(&src[i]);
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const uint8x16_t B = vld1q_u8(&pred[i]);
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const uint8x16_t C = vsubq_u8(A, B);
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vst1q_u8(&dst[i], C);
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}
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for (; i < length; ++i) dst[i] = src[i] - pred[i];
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}
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// Special case for left-based prediction (when preds==dst-1 or preds==src-1).
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static void PredictLineLeft_NEON(const uint8_t* src, uint8_t* dst, int length) {
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PredictLine_NEON(src, src - 1, dst, length);
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}
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//------------------------------------------------------------------------------
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// Horizontal filter.
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static WEBP_INLINE void DoHorizontalFilter_NEON(const uint8_t* in,
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int width, int height,
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int stride,
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int row, int num_rows,
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uint8_t* out) {
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const size_t start_offset = row * stride;
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const int last_row = row + num_rows;
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SANITY_CHECK(in, out);
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in += start_offset;
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out += start_offset;
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if (row == 0) {
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// Leftmost pixel is the same as input for topmost scanline.
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out[0] = in[0];
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PredictLineLeft_NEON(in + 1, out + 1, width - 1);
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row = 1;
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in += stride;
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out += stride;
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}
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// Filter line-by-line.
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while (row < last_row) {
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// Leftmost pixel is predicted from above.
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out[0] = in[0] - in[-stride];
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PredictLineLeft_NEON(in + 1, out + 1, width - 1);
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++row;
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in += stride;
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out += stride;
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}
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}
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static void HorizontalFilter_NEON(const uint8_t* data, int width, int height,
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int stride, uint8_t* filtered_data) {
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DoHorizontalFilter_NEON(data, width, height, stride, 0, height,
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filtered_data);
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}
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//------------------------------------------------------------------------------
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// Vertical filter.
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static WEBP_INLINE void DoVerticalFilter_NEON(const uint8_t* in,
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int width, int height, int stride,
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int row, int num_rows,
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uint8_t* out) {
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const size_t start_offset = row * stride;
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const int last_row = row + num_rows;
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SANITY_CHECK(in, out);
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in += start_offset;
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out += start_offset;
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if (row == 0) {
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// Very first top-left pixel is copied.
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out[0] = in[0];
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// Rest of top scan-line is left-predicted.
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PredictLineLeft_NEON(in + 1, out + 1, width - 1);
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row = 1;
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in += stride;
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out += stride;
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}
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// Filter line-by-line.
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while (row < last_row) {
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PredictLine_NEON(in, in - stride, out, width);
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++row;
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in += stride;
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out += stride;
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}
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}
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static void VerticalFilter_NEON(const uint8_t* data, int width, int height,
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int stride, uint8_t* filtered_data) {
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DoVerticalFilter_NEON(data, width, height, stride, 0, height,
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filtered_data);
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}
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//------------------------------------------------------------------------------
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// Gradient filter.
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static WEBP_INLINE int GradientPredictor_C(uint8_t a, uint8_t b, uint8_t c) {
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const int g = a + b - c;
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return ((g & ~0xff) == 0) ? g : (g < 0) ? 0 : 255; // clip to 8bit
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}
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static void GradientPredictDirect_NEON(const uint8_t* const row,
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const uint8_t* const top,
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uint8_t* const out, int length) {
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int i;
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for (i = 0; i + 8 <= length; i += 8) {
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const uint8x8_t A = vld1_u8(&row[i - 1]);
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const uint8x8_t B = vld1_u8(&top[i + 0]);
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const int16x8_t C = vreinterpretq_s16_u16(vaddl_u8(A, B));
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const int16x8_t D = LOAD_U8_TO_S16(&top[i - 1]);
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const uint8x8_t E = vqmovun_s16(vsubq_s16(C, D));
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const uint8x8_t F = vld1_u8(&row[i + 0]);
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vst1_u8(&out[i], vsub_u8(F, E));
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}
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for (; i < length; ++i) {
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out[i] = row[i] - GradientPredictor_C(row[i - 1], top[i], top[i - 1]);
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}
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}
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static WEBP_INLINE void DoGradientFilter_NEON(const uint8_t* in,
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int width, int height,
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int stride,
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int row, int num_rows,
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uint8_t* out) {
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const size_t start_offset = row * stride;
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const int last_row = row + num_rows;
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SANITY_CHECK(in, out);
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in += start_offset;
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out += start_offset;
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// left prediction for top scan-line
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if (row == 0) {
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out[0] = in[0];
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PredictLineLeft_NEON(in + 1, out + 1, width - 1);
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row = 1;
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in += stride;
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out += stride;
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}
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// Filter line-by-line.
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while (row < last_row) {
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out[0] = in[0] - in[-stride];
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GradientPredictDirect_NEON(in + 1, in + 1 - stride, out + 1, width - 1);
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++row;
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in += stride;
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out += stride;
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}
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}
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static void GradientFilter_NEON(const uint8_t* data, int width, int height,
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int stride, uint8_t* filtered_data) {
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DoGradientFilter_NEON(data, width, height, stride, 0, height,
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filtered_data);
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}
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#undef SANITY_CHECK
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//------------------------------------------------------------------------------
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// Inverse transforms
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static void HorizontalUnfilter_NEON(const uint8_t* prev, const uint8_t* in,
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uint8_t* out, int width) {
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int i;
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const uint8x16_t zero = vdupq_n_u8(0);
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uint8x16_t last;
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out[0] = in[0] + (prev == NULL ? 0 : prev[0]);
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if (width <= 1) return;
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last = vsetq_lane_u8(out[0], zero, 0);
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for (i = 1; i + 16 <= width; i += 16) {
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const uint8x16_t A0 = vld1q_u8(&in[i]);
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const uint8x16_t A1 = vaddq_u8(A0, last);
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const uint8x16_t A2 = SHIFT_LEFT_N_Q(A1, 1);
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const uint8x16_t A3 = vaddq_u8(A1, A2);
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const uint8x16_t A4 = SHIFT_LEFT_N_Q(A3, 2);
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const uint8x16_t A5 = vaddq_u8(A3, A4);
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const uint8x16_t A6 = SHIFT_LEFT_N_Q(A5, 4);
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const uint8x16_t A7 = vaddq_u8(A5, A6);
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const uint8x16_t A8 = SHIFT_LEFT_N_Q(A7, 8);
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const uint8x16_t A9 = vaddq_u8(A7, A8);
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vst1q_u8(&out[i], A9);
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last = SHIFT_RIGHT_N_Q(A9, 15);
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}
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for (; i < width; ++i) out[i] = in[i] + out[i - 1];
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}
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static void VerticalUnfilter_NEON(const uint8_t* prev, const uint8_t* in,
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uint8_t* out, int width) {
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if (prev == NULL) {
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HorizontalUnfilter_NEON(NULL, in, out, width);
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} else {
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int i;
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assert(width >= 0);
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for (i = 0; i + 16 <= width; i += 16) {
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const uint8x16_t A = vld1q_u8(&in[i]);
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const uint8x16_t B = vld1q_u8(&prev[i]);
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const uint8x16_t C = vaddq_u8(A, B);
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vst1q_u8(&out[i], C);
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}
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for (; i < width; ++i) out[i] = in[i] + prev[i];
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}
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}
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#define GRAD_PROCESS_LANE(L) do { \
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const uint8x8_t tmp1 = ROTATE_RIGHT_N(pred, 1); /* rotate predictor in */ \
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const int16x8_t tmp2 = vaddq_s16(BC, U8_TO_S16(tmp1)); \
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const uint8x8_t delta = vqmovun_s16(tmp2); \
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pred = vadd_u8(D, delta); \
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out = vext_u8(out, ROTATE_LEFT_N(pred, (L)), 1); \
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} while (0)
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static void GradientPredictInverse_NEON(const uint8_t* const in,
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const uint8_t* const top,
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uint8_t* const row, int length) {
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if (length > 0) {
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int i;
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uint8x8_t pred = vdup_n_u8(row[-1]); // left sample
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uint8x8_t out = vdup_n_u8(0);
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for (i = 0; i + 8 <= length; i += 8) {
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const int16x8_t B = LOAD_U8_TO_S16(&top[i + 0]);
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const int16x8_t C = LOAD_U8_TO_S16(&top[i - 1]);
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const int16x8_t BC = vsubq_s16(B, C); // unclipped gradient basis B - C
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const uint8x8_t D = vld1_u8(&in[i]); // base input
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GRAD_PROCESS_LANE(0);
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GRAD_PROCESS_LANE(1);
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GRAD_PROCESS_LANE(2);
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GRAD_PROCESS_LANE(3);
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GRAD_PROCESS_LANE(4);
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GRAD_PROCESS_LANE(5);
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GRAD_PROCESS_LANE(6);
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GRAD_PROCESS_LANE(7);
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vst1_u8(&row[i], out);
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}
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for (; i < length; ++i) {
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row[i] = in[i] + GradientPredictor_C(row[i - 1], top[i], top[i - 1]);
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}
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}
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}
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#undef GRAD_PROCESS_LANE
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static void GradientUnfilter_NEON(const uint8_t* prev, const uint8_t* in,
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uint8_t* out, int width) {
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if (prev == NULL) {
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HorizontalUnfilter_NEON(NULL, in, out, width);
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} else {
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out[0] = in[0] + prev[0]; // predict from above
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GradientPredictInverse_NEON(in + 1, prev + 1, out + 1, width - 1);
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}
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}
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//------------------------------------------------------------------------------
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// Entry point
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extern void VP8FiltersInitNEON(void);
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WEBP_TSAN_IGNORE_FUNCTION void VP8FiltersInitNEON(void) {
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WebPUnfilters[WEBP_FILTER_HORIZONTAL] = HorizontalUnfilter_NEON;
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WebPUnfilters[WEBP_FILTER_VERTICAL] = VerticalUnfilter_NEON;
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WebPUnfilters[WEBP_FILTER_GRADIENT] = GradientUnfilter_NEON;
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WebPFilters[WEBP_FILTER_HORIZONTAL] = HorizontalFilter_NEON;
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WebPFilters[WEBP_FILTER_VERTICAL] = VerticalFilter_NEON;
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WebPFilters[WEBP_FILTER_GRADIENT] = GradientFilter_NEON;
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}
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#else // !WEBP_USE_NEON
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WEBP_DSP_INIT_STUB(VP8FiltersInitNEON)
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#endif // WEBP_USE_NEON
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@ -79,4 +79,22 @@ static WEBP_INLINE int32x4x4_t Transpose4x4(const int32x4x4_t rows) {
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}
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}
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#if 0 // Useful debug macro.
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#include <stdio.h>
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#define PRINT_REG(REG, SIZE) do { \
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int i; \
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printf("%s \t[%d]: 0x", #REG, SIZE); \
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if (SIZE == 8) { \
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uint8_t _tmp[8]; \
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vst1_u8(_tmp, (REG)); \
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for (i = 0; i < 8; ++i) printf("%.2x ", _tmp[i]); \
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} else if (SIZE == 16) { \
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uint16_t _tmp[4]; \
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vst1_u16(_tmp, (REG)); \
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for (i = 0; i < 4; ++i) printf("%.4x ", _tmp[i]); \
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} \
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printf("\n"); \
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} while (0)
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#endif
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#endif // WEBP_DSP_NEON_H_
|
||||
|
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Block a user