Update mojo sdk to rev 1dc8a9a5db73d3718d99917fadf31f5fb2ebad4f
[chromium-blink-merge.git] / third_party / libwebp / dsp / lossless_neon.c
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1 // Copyright 2014 Google Inc. All Rights Reserved.
2 //
3 // Use of this source code is governed by a BSD-style license
4 // that can be found in the COPYING file in the root of the source
5 // tree. An additional intellectual property rights grant can be found
6 // in the file PATENTS. All contributing project authors may
7 // be found in the AUTHORS file in the root of the source tree.
8 // -----------------------------------------------------------------------------
9 //
10 // NEON variant of methods for lossless decoder
12 // Author: Skal (pascal.massimino@gmail.com)
14 #include "./dsp.h"
16 #if defined(WEBP_USE_NEON)
18 #include <arm_neon.h>
20 #include "./lossless.h"
21 #include "./neon.h"
23 //------------------------------------------------------------------------------
24 // Colorspace conversion functions
26 #if !defined(WORK_AROUND_GCC)
27 // gcc 4.6.0 had some trouble (NDK-r9) with this code. We only use it for
28 // gcc-4.8.x at least.
29 static void ConvertBGRAToRGBA(const uint32_t* src,
30 int num_pixels, uint8_t* dst) {
31 const uint32_t* const end = src + (num_pixels & ~15);
32 for (; src < end; src += 16) {
33 uint8x16x4_t pixel = vld4q_u8((uint8_t*)src);
34 // swap B and R. (VSWP d0,d2 has no intrinsics equivalent!)
35 const uint8x16_t tmp = pixel.val[0];
36 pixel.val[0] = pixel.val[2];
37 pixel.val[2] = tmp;
38 vst4q_u8(dst, pixel);
39 dst += 64;
41 VP8LConvertBGRAToRGBA_C(src, num_pixels & 15, dst); // left-overs
44 static void ConvertBGRAToBGR(const uint32_t* src,
45 int num_pixels, uint8_t* dst) {
46 const uint32_t* const end = src + (num_pixels & ~15);
47 for (; src < end; src += 16) {
48 const uint8x16x4_t pixel = vld4q_u8((uint8_t*)src);
49 const uint8x16x3_t tmp = { { pixel.val[0], pixel.val[1], pixel.val[2] } };
50 vst3q_u8(dst, tmp);
51 dst += 48;
53 VP8LConvertBGRAToBGR_C(src, num_pixels & 15, dst); // left-overs
56 static void ConvertBGRAToRGB(const uint32_t* src,
57 int num_pixels, uint8_t* dst) {
58 const uint32_t* const end = src + (num_pixels & ~15);
59 for (; src < end; src += 16) {
60 const uint8x16x4_t pixel = vld4q_u8((uint8_t*)src);
61 const uint8x16x3_t tmp = { { pixel.val[2], pixel.val[1], pixel.val[0] } };
62 vst3q_u8(dst, tmp);
63 dst += 48;
65 VP8LConvertBGRAToRGB_C(src, num_pixels & 15, dst); // left-overs
68 #else // WORK_AROUND_GCC
70 // gcc-4.6.0 fallback
72 static const uint8_t kRGBAShuffle[8] = { 2, 1, 0, 3, 6, 5, 4, 7 };
74 static void ConvertBGRAToRGBA(const uint32_t* src,
75 int num_pixels, uint8_t* dst) {
76 const uint32_t* const end = src + (num_pixels & ~1);
77 const uint8x8_t shuffle = vld1_u8(kRGBAShuffle);
78 for (; src < end; src += 2) {
79 const uint8x8_t pixels = vld1_u8((uint8_t*)src);
80 vst1_u8(dst, vtbl1_u8(pixels, shuffle));
81 dst += 8;
83 VP8LConvertBGRAToRGBA_C(src, num_pixels & 1, dst); // left-overs
86 static const uint8_t kBGRShuffle[3][8] = {
87 { 0, 1, 2, 4, 5, 6, 8, 9 },
88 { 10, 12, 13, 14, 16, 17, 18, 20 },
89 { 21, 22, 24, 25, 26, 28, 29, 30 }
92 static void ConvertBGRAToBGR(const uint32_t* src,
93 int num_pixels, uint8_t* dst) {
94 const uint32_t* const end = src + (num_pixels & ~7);
95 const uint8x8_t shuffle0 = vld1_u8(kBGRShuffle[0]);
96 const uint8x8_t shuffle1 = vld1_u8(kBGRShuffle[1]);
97 const uint8x8_t shuffle2 = vld1_u8(kBGRShuffle[2]);
98 for (; src < end; src += 8) {
99 uint8x8x4_t pixels;
100 INIT_VECTOR4(pixels,
101 vld1_u8((const uint8_t*)(src + 0)),
102 vld1_u8((const uint8_t*)(src + 2)),
103 vld1_u8((const uint8_t*)(src + 4)),
104 vld1_u8((const uint8_t*)(src + 6)));
105 vst1_u8(dst + 0, vtbl4_u8(pixels, shuffle0));
106 vst1_u8(dst + 8, vtbl4_u8(pixels, shuffle1));
107 vst1_u8(dst + 16, vtbl4_u8(pixels, shuffle2));
108 dst += 8 * 3;
110 VP8LConvertBGRAToBGR_C(src, num_pixels & 7, dst); // left-overs
113 static const uint8_t kRGBShuffle[3][8] = {
114 { 2, 1, 0, 6, 5, 4, 10, 9 },
115 { 8, 14, 13, 12, 18, 17, 16, 22 },
116 { 21, 20, 26, 25, 24, 30, 29, 28 }
119 static void ConvertBGRAToRGB(const uint32_t* src,
120 int num_pixels, uint8_t* dst) {
121 const uint32_t* const end = src + (num_pixels & ~7);
122 const uint8x8_t shuffle0 = vld1_u8(kRGBShuffle[0]);
123 const uint8x8_t shuffle1 = vld1_u8(kRGBShuffle[1]);
124 const uint8x8_t shuffle2 = vld1_u8(kRGBShuffle[2]);
125 for (; src < end; src += 8) {
126 uint8x8x4_t pixels;
127 INIT_VECTOR4(pixels,
128 vld1_u8((const uint8_t*)(src + 0)),
129 vld1_u8((const uint8_t*)(src + 2)),
130 vld1_u8((const uint8_t*)(src + 4)),
131 vld1_u8((const uint8_t*)(src + 6)));
132 vst1_u8(dst + 0, vtbl4_u8(pixels, shuffle0));
133 vst1_u8(dst + 8, vtbl4_u8(pixels, shuffle1));
134 vst1_u8(dst + 16, vtbl4_u8(pixels, shuffle2));
135 dst += 8 * 3;
137 VP8LConvertBGRAToRGB_C(src, num_pixels & 7, dst); // left-overs
140 #endif // !WORK_AROUND_GCC
142 //------------------------------------------------------------------------------
144 #ifdef USE_INTRINSICS
146 static WEBP_INLINE uint32_t Average2(const uint32_t* const a,
147 const uint32_t* const b) {
148 const uint8x8_t a0 = vreinterpret_u8_u64(vcreate_u64(*a));
149 const uint8x8_t b0 = vreinterpret_u8_u64(vcreate_u64(*b));
150 const uint8x8_t avg = vhadd_u8(a0, b0);
151 return vget_lane_u32(vreinterpret_u32_u8(avg), 0);
154 static WEBP_INLINE uint32_t Average3(const uint32_t* const a,
155 const uint32_t* const b,
156 const uint32_t* const c) {
157 const uint8x8_t a0 = vreinterpret_u8_u64(vcreate_u64(*a));
158 const uint8x8_t b0 = vreinterpret_u8_u64(vcreate_u64(*b));
159 const uint8x8_t c0 = vreinterpret_u8_u64(vcreate_u64(*c));
160 const uint8x8_t avg1 = vhadd_u8(a0, c0);
161 const uint8x8_t avg2 = vhadd_u8(avg1, b0);
162 return vget_lane_u32(vreinterpret_u32_u8(avg2), 0);
165 static WEBP_INLINE uint32_t Average4(const uint32_t* const a,
166 const uint32_t* const b,
167 const uint32_t* const c,
168 const uint32_t* const d) {
169 const uint8x8_t a0 = vreinterpret_u8_u64(vcreate_u64(*a));
170 const uint8x8_t b0 = vreinterpret_u8_u64(vcreate_u64(*b));
171 const uint8x8_t c0 = vreinterpret_u8_u64(vcreate_u64(*c));
172 const uint8x8_t d0 = vreinterpret_u8_u64(vcreate_u64(*d));
173 const uint8x8_t avg1 = vhadd_u8(a0, b0);
174 const uint8x8_t avg2 = vhadd_u8(c0, d0);
175 const uint8x8_t avg3 = vhadd_u8(avg1, avg2);
176 return vget_lane_u32(vreinterpret_u32_u8(avg3), 0);
179 static uint32_t Predictor5(uint32_t left, const uint32_t* const top) {
180 return Average3(&left, top + 0, top + 1);
183 static uint32_t Predictor6(uint32_t left, const uint32_t* const top) {
184 return Average2(&left, top - 1);
187 static uint32_t Predictor7(uint32_t left, const uint32_t* const top) {
188 return Average2(&left, top + 0);
191 static uint32_t Predictor8(uint32_t left, const uint32_t* const top) {
192 (void)left;
193 return Average2(top - 1, top + 0);
196 static uint32_t Predictor9(uint32_t left, const uint32_t* const top) {
197 (void)left;
198 return Average2(top + 0, top + 1);
201 static uint32_t Predictor10(uint32_t left, const uint32_t* const top) {
202 return Average4(&left, top - 1, top + 0, top + 1);
205 //------------------------------------------------------------------------------
207 static WEBP_INLINE uint32_t Select(const uint32_t* const c0,
208 const uint32_t* const c1,
209 const uint32_t* const c2) {
210 const uint8x8_t p0 = vreinterpret_u8_u64(vcreate_u64(*c0));
211 const uint8x8_t p1 = vreinterpret_u8_u64(vcreate_u64(*c1));
212 const uint8x8_t p2 = vreinterpret_u8_u64(vcreate_u64(*c2));
213 const uint8x8_t bc = vabd_u8(p1, p2); // |b-c|
214 const uint8x8_t ac = vabd_u8(p0, p2); // |a-c|
215 const int16x4_t sum_bc = vreinterpret_s16_u16(vpaddl_u8(bc));
216 const int16x4_t sum_ac = vreinterpret_s16_u16(vpaddl_u8(ac));
217 const int32x2_t diff = vpaddl_s16(vsub_s16(sum_bc, sum_ac));
218 const int32_t pa_minus_pb = vget_lane_s32(diff, 0);
219 return (pa_minus_pb <= 0) ? *c0 : *c1;
222 static uint32_t Predictor11(uint32_t left, const uint32_t* const top) {
223 return Select(top + 0, &left, top - 1);
226 static WEBP_INLINE uint32_t ClampedAddSubtractFull(const uint32_t* const c0,
227 const uint32_t* const c1,
228 const uint32_t* const c2) {
229 const uint8x8_t p0 = vreinterpret_u8_u64(vcreate_u64(*c0));
230 const uint8x8_t p1 = vreinterpret_u8_u64(vcreate_u64(*c1));
231 const uint8x8_t p2 = vreinterpret_u8_u64(vcreate_u64(*c2));
232 const uint16x8_t sum0 = vaddl_u8(p0, p1); // add and widen
233 const uint16x8_t sum1 = vqsubq_u16(sum0, vmovl_u8(p2)); // widen and subtract
234 const uint8x8_t out = vqmovn_u16(sum1); // narrow and clamp
235 return vget_lane_u32(vreinterpret_u32_u8(out), 0);
238 static uint32_t Predictor12(uint32_t left, const uint32_t* const top) {
239 return ClampedAddSubtractFull(&left, top + 0, top - 1);
242 static WEBP_INLINE uint32_t ClampedAddSubtractHalf(const uint32_t* const c0,
243 const uint32_t* const c1,
244 const uint32_t* const c2) {
245 const uint8x8_t p0 = vreinterpret_u8_u64(vcreate_u64(*c0));
246 const uint8x8_t p1 = vreinterpret_u8_u64(vcreate_u64(*c1));
247 const uint8x8_t p2 = vreinterpret_u8_u64(vcreate_u64(*c2));
248 const uint8x8_t avg = vhadd_u8(p0, p1); // Average(c0,c1)
249 const uint8x8_t ab = vshr_n_u8(vqsub_u8(avg, p2), 1); // (a-b)>>1 saturated
250 const uint8x8_t ba = vshr_n_u8(vqsub_u8(p2, avg), 1); // (b-a)>>1 saturated
251 const uint8x8_t out = vqsub_u8(vqadd_u8(avg, ab), ba);
252 return vget_lane_u32(vreinterpret_u32_u8(out), 0);
255 static uint32_t Predictor13(uint32_t left, const uint32_t* const top) {
256 return ClampedAddSubtractHalf(&left, top + 0, top - 1);
259 //------------------------------------------------------------------------------
260 // Subtract-Green Transform
262 // vtbl?_u8 are marked unavailable for iOS arm64 with Xcode < 6.3, use
263 // non-standard versions there.
264 #if defined(__APPLE__) && defined(__aarch64__) && \
265 defined(__apple_build_version__) && (__apple_build_version__< 6020037)
266 #define USE_VTBLQ
267 #endif
269 #ifdef USE_VTBLQ
270 // 255 = byte will be zeroed
271 static const uint8_t kGreenShuffle[16] = {
272 1, 255, 1, 255, 5, 255, 5, 255, 9, 255, 9, 255, 13, 255, 13, 255
275 static WEBP_INLINE uint8x16_t DoGreenShuffle(const uint8x16_t argb,
276 const uint8x16_t shuffle) {
277 return vcombine_u8(vtbl1q_u8(argb, vget_low_u8(shuffle)),
278 vtbl1q_u8(argb, vget_high_u8(shuffle)));
280 #else // !USE_VTBLQ
281 // 255 = byte will be zeroed
282 static const uint8_t kGreenShuffle[8] = { 1, 255, 1, 255, 5, 255, 5, 255 };
284 static WEBP_INLINE uint8x16_t DoGreenShuffle(const uint8x16_t argb,
285 const uint8x8_t shuffle) {
286 return vcombine_u8(vtbl1_u8(vget_low_u8(argb), shuffle),
287 vtbl1_u8(vget_high_u8(argb), shuffle));
289 #endif // USE_VTBLQ
291 static void SubtractGreenFromBlueAndRed(uint32_t* argb_data, int num_pixels) {
292 const uint32_t* const end = argb_data + (num_pixels & ~3);
293 #ifdef USE_VTBLQ
294 const uint8x16_t shuffle = vld1q_u8(kGreenShuffle);
295 #else
296 const uint8x8_t shuffle = vld1_u8(kGreenShuffle);
297 #endif
298 for (; argb_data < end; argb_data += 4) {
299 const uint8x16_t argb = vld1q_u8((uint8_t*)argb_data);
300 const uint8x16_t greens = DoGreenShuffle(argb, shuffle);
301 vst1q_u8((uint8_t*)argb_data, vsubq_u8(argb, greens));
303 // fallthrough and finish off with plain-C
304 VP8LSubtractGreenFromBlueAndRed_C(argb_data, num_pixels & 3);
307 static void AddGreenToBlueAndRed(uint32_t* argb_data, int num_pixels) {
308 const uint32_t* const end = argb_data + (num_pixels & ~3);
309 #ifdef USE_VTBLQ
310 const uint8x16_t shuffle = vld1q_u8(kGreenShuffle);
311 #else
312 const uint8x8_t shuffle = vld1_u8(kGreenShuffle);
313 #endif
314 for (; argb_data < end; argb_data += 4) {
315 const uint8x16_t argb = vld1q_u8((uint8_t*)argb_data);
316 const uint8x16_t greens = DoGreenShuffle(argb, shuffle);
317 vst1q_u8((uint8_t*)argb_data, vaddq_u8(argb, greens));
319 // fallthrough and finish off with plain-C
320 VP8LAddGreenToBlueAndRed_C(argb_data, num_pixels & 3);
323 #undef USE_VTBLQ
325 #endif // USE_INTRINSICS
327 #endif // WEBP_USE_NEON
329 //------------------------------------------------------------------------------
331 extern void VP8LDspInitNEON(void);
333 void VP8LDspInitNEON(void) {
334 #if defined(WEBP_USE_NEON)
335 VP8LConvertBGRAToRGBA = ConvertBGRAToRGBA;
336 VP8LConvertBGRAToBGR = ConvertBGRAToBGR;
337 VP8LConvertBGRAToRGB = ConvertBGRAToRGB;
339 #ifdef USE_INTRINSICS
340 VP8LPredictors[5] = Predictor5;
341 VP8LPredictors[6] = Predictor6;
342 VP8LPredictors[7] = Predictor7;
343 VP8LPredictors[8] = Predictor8;
344 VP8LPredictors[9] = Predictor9;
345 VP8LPredictors[10] = Predictor10;
346 VP8LPredictors[11] = Predictor11;
347 VP8LPredictors[12] = Predictor12;
348 VP8LPredictors[13] = Predictor13;
350 VP8LSubtractGreenFromBlueAndRed = SubtractGreenFromBlueAndRed;
351 VP8LAddGreenToBlueAndRed = AddGreenToBlueAndRed;
352 #endif
354 #endif // WEBP_USE_NEON
357 //------------------------------------------------------------------------------