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Side by Side Diff: src/core/SkRasterPipelineBlitter.cpp

Issue 2146413002: Add SkRasterPipeline blitter. (Closed) Base URL: https://skia.googlesource.com/skia.git@master
Patch Set: Do not leak the blitter. Created 4 years, 5 months ago
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1 /*
2 * Copyright 2016 Google Inc.
3 *
4 * Use of this source code is governed by a BSD-style license that can be
5 * found in the LICENSE file.
6 */
7
8 #include "SkBlitter.h"
9 #include "SkColor.h"
10 #include "SkColorFilter.h"
11 #include "SkPM4f.h"
12 #include "SkPM4fPriv.h"
13 #include "SkRasterPipeline.h"
14 #include "SkShader.h"
15 #include "SkSRGB.h"
16 #include "SkXfermode.h"
17
18
19 class SkRasterPipelineBlitter : public SkBlitter {
20 public:
21 static SkBlitter* Create(const SkPixmap&, const SkPaint&, SkTBlitterAllocato r*);
22
23 SkRasterPipelineBlitter(SkPixmap dst,
24 SkRasterPipeline shader,
25 SkRasterPipeline colorFilter,
26 SkRasterPipeline xfermode,
27 SkPM4f paintColor)
28 : fDst(dst)
29 , fShader(shader)
30 , fColorFilter(colorFilter)
31 , fXfermode(xfermode)
32 , fPaintColor(paintColor)
33 {}
34
35 void blitH (int x, int y, int w) override;
36 void blitAntiH(int x, int y, const SkAlpha[], const int16_t[]) override;
37 void blitMask (const SkMask&, const SkIRect& clip) override;
38
39 // TODO: The default implementations of the other blits look fine,
40 // but some of them like blitV could probably benefit from custom
41 // blits using something like a SkRasterPipeline::runFew() method.
42
43 private:
44 SkPixmap fDst;
45 SkRasterPipeline fShader, fColorFilter, fXfermode;
46 SkPM4f fPaintColor;
47
48 typedef SkBlitter INHERITED;
49 };
50
51 SkBlitter* SkCreateRasterPipelineBlitter(const SkPixmap& dst,
52 const SkPaint& paint,
53 SkTBlitterAllocator* alloc) {
54 return SkRasterPipelineBlitter::Create(dst, paint, alloc);
55 }
56
57
58 // The default shader produces a constant color (from the SkPaint).
59 static void SK_VECTORCALL constant_color(SkRasterPipeline::Stage* st, size_t x,
60 Sk4f r, Sk4f g, Sk4f b, Sk4f a,
61 Sk4f dr, Sk4f dg, Sk4f db, Sk4f da) {
62 auto color = st->ctx<const SkPM4f*>();
63 r = color->r();
64 g = color->g();
65 b = color->b();
66 a = color->a();
67 st->next(x, r,g,b,a, dr,dg,db,da);
68 }
69
70 // The default transfer mode is srcover, s' = s + d*(1-sa).
71 static void SK_VECTORCALL srcover(SkRasterPipeline::Stage* st, size_t x,
72 Sk4f r, Sk4f g, Sk4f b, Sk4f a,
73 Sk4f dr, Sk4f dg, Sk4f db, Sk4f da) {
74 auto A = 1.0f - a;
75 r += dr*A;
76 g += dg*A;
77 b += db*A;
78 a += da*A;
79 st->next(x, r,g,b,a, dr,dg,db,da);
80 }
81
82 static Sk4f lerp(const Sk4f& from, const Sk4f& to, const Sk4f& cov) {
83 return from + (to-from)*cov;
84 }
85
86 // s' = d(1-c) + sc, for a constant c.
87 static void SK_VECTORCALL lerp_constant_float(SkRasterPipeline::Stage* st, size_ t x,
88 Sk4f r, Sk4f g, Sk4f b, Sk4f a ,
89 Sk4f dr, Sk4f dg, Sk4f db, Sk4f da ) {
90 Sk4f c = *st->ctx<const float*>();
91
92 r = lerp(dr, r, c);
93 g = lerp(dg, g, c);
94 b = lerp(db, b, c);
95 a = lerp(da, a, c);
96 st->next(x, r,g,b,a, dr,dg,db,da);
97 }
98
99 // s' = d(1-c) + sc, 4 pixels at a time for 8-bit coverage.
100 static void SK_VECTORCALL lerp_a8(SkRasterPipeline::Stage* st, size_t x,
101 Sk4f r, Sk4f g, Sk4f b, Sk4f a,
102 Sk4f dr, Sk4f dg, Sk4f db, Sk4f da) {
103 auto ptr = st->ctx<const uint8_t*>() + x;
104 Sk4f c = SkNx_cast<float>(Sk4b::Load(ptr)) * (1/255.0f);
105
106 r = lerp(dr, r, c);
107 g = lerp(dg, g, c);
108 b = lerp(db, b, c);
109 a = lerp(da, a, c);
110 st->next(x, r,g,b,a, dr,dg,db,da);
111 }
112
113 // Tail variant of lerp_a8() handling 1 pixel at a time.
114 static void SK_VECTORCALL lerp_a8_1(SkRasterPipeline::Stage* st, size_t x,
115 Sk4f r, Sk4f g, Sk4f b, Sk4f a,
116 Sk4f dr, Sk4f dg, Sk4f db, Sk4f da) {
117 auto ptr = st->ctx<const uint8_t*>() + x;
118 Sk4f c = *ptr * (1/255.0f);
119
120 r = lerp(dr, r, c);
121 g = lerp(dg, g, c);
122 b = lerp(db, b, c);
123 a = lerp(da, a, c);
124 st->next(x, r,g,b,a, dr,dg,db,da);
125 }
126
127 static void upscale_lcd16(const Sk4h& lcd16, Sk4f* r, Sk4f* g, Sk4f* b) {
128 Sk4i _32_bit = SkNx_cast<int>(lcd16);
129
130 *r = SkNx_cast<float>(_32_bit & SK_R16_MASK_IN_PLACE) * (1.0f / SK_R16_MASK_ IN_PLACE);
131 *g = SkNx_cast<float>(_32_bit & SK_G16_MASK_IN_PLACE) * (1.0f / SK_G16_MASK_ IN_PLACE);
132 *b = SkNx_cast<float>(_32_bit & SK_B16_MASK_IN_PLACE) * (1.0f / SK_B16_MASK_ IN_PLACE);
133 }
134
135 // s' = d(1-c) + sc, 4 pixels at a time for 565 coverage.
136 static void SK_VECTORCALL lerp_lcd16(SkRasterPipeline::Stage* st, size_t x,
137 Sk4f r, Sk4f g, Sk4f b, Sk4f a,
138 Sk4f dr, Sk4f dg, Sk4f db, Sk4f da) {
139 auto ptr = st->ctx<const uint16_t*>() + x;
140 Sk4f cr, cg, cb;
141 upscale_lcd16(Sk4h::Load(ptr), &cr, &cg, &cb);
142
143 r = lerp(dr, r, cr);
144 g = lerp(dg, g, cg);
145 b = lerp(db, b, cb);
146 a = 1.0f;
147 st->next(x, r,g,b,a, dr,dg,db,da);
148 }
149
150 // Tail variant of lerp_lcd16() handling 1 pixel at a time.
151 static void SK_VECTORCALL lerp_lcd16_1(SkRasterPipeline::Stage* st, size_t x,
152 Sk4f r, Sk4f g, Sk4f b, Sk4f a,
153 Sk4f dr, Sk4f dg, Sk4f db, Sk4f da) {
154 auto ptr = st->ctx<const uint16_t*>() + x;
155 Sk4f cr, cg, cb;
156 upscale_lcd16({*ptr,0,0,0}, &cr, &cg, &cb);
157
158 r = lerp(dr, r, cr);
159 g = lerp(dg, g, cg);
160 b = lerp(db, b, cb);
161 a = 1.0f;
162 st->next(x, r,g,b,a, dr,dg,db,da);
163 }
164
165 // Load 4 8-bit sRGB pixels from SkPMColor order to RGBA.
166 static void SK_VECTORCALL load_d_srgb(SkRasterPipeline::Stage* st, size_t x,
167 Sk4f r, Sk4f g, Sk4f b, Sk4f a,
168 Sk4f dr, Sk4f dg, Sk4f db, Sk4f da) {
169 auto ptr = st->ctx<const uint32_t*>() + x;
170
171 dr = { sk_linear_from_srgb[(ptr[0] >> SK_R32_SHIFT) & 0xff],
172 sk_linear_from_srgb[(ptr[1] >> SK_R32_SHIFT) & 0xff],
173 sk_linear_from_srgb[(ptr[2] >> SK_R32_SHIFT) & 0xff],
174 sk_linear_from_srgb[(ptr[3] >> SK_R32_SHIFT) & 0xff] };
175
176 dg = { sk_linear_from_srgb[(ptr[0] >> SK_G32_SHIFT) & 0xff],
177 sk_linear_from_srgb[(ptr[1] >> SK_G32_SHIFT) & 0xff],
178 sk_linear_from_srgb[(ptr[2] >> SK_G32_SHIFT) & 0xff],
179 sk_linear_from_srgb[(ptr[3] >> SK_G32_SHIFT) & 0xff] };
180
181 db = { sk_linear_from_srgb[(ptr[0] >> SK_B32_SHIFT) & 0xff],
182 sk_linear_from_srgb[(ptr[1] >> SK_B32_SHIFT) & 0xff],
183 sk_linear_from_srgb[(ptr[2] >> SK_B32_SHIFT) & 0xff],
184 sk_linear_from_srgb[(ptr[3] >> SK_B32_SHIFT) & 0xff] };
185
186 // TODO: this >> doesn't really need mask if we make it logical instead of a rithmetic.
187 da = SkNx_cast<float>((Sk4i::Load(ptr) >> SK_A32_SHIFT) & 0xff) * (1/255.0f) ;
188
189 st->next(x, r,g,b,a, dr,dg,db,da);
190 }
191
192 // Tail variant of load_d_srgb() handling 1 pixel at a time.
193 static void SK_VECTORCALL load_d_srgb_1(SkRasterPipeline::Stage* st, size_t x,
194 Sk4f r, Sk4f g, Sk4f b, Sk4f a,
195 Sk4f dr, Sk4f dg, Sk4f db, Sk4f da) {
196 auto ptr = st->ctx<const uint32_t*>() + x;
197
198 dr = { sk_linear_from_srgb[(*ptr >> SK_R32_SHIFT) & 0xff], 0,0,0 };
199 dg = { sk_linear_from_srgb[(*ptr >> SK_G32_SHIFT) & 0xff], 0,0,0 };
200 db = { sk_linear_from_srgb[(*ptr >> SK_B32_SHIFT) & 0xff], 0,0,0 };
201 da = { (1/255.0f) * (*ptr >> SK_A32_SHIFT) , 0,0,0 };
202
203 st->next(x, r,g,b,a, dr,dg,db,da);
204 }
205
206 // Write out 4 pixels as 8-bit SkPMColor-order sRGB.
207 static void SK_VECTORCALL store_srgb(SkRasterPipeline::Stage* st, size_t x,
208 Sk4f r, Sk4f g, Sk4f b, Sk4f a,
209 Sk4f dr, Sk4f dg, Sk4f db, Sk4f da) {
210 auto dst = st->ctx<uint32_t*>() + x;
211 ( sk_linear_to_srgb(r) << SK_R32_SHIFT
212 | sk_linear_to_srgb(g) << SK_G32_SHIFT
213 | sk_linear_to_srgb(b) << SK_B32_SHIFT
214 | Sk4f_round(255.0f*a) << SK_A32_SHIFT).store(dst);
215 }
216
217 // Tail variant of store_srgb() handling 1 pixel at a time.
218 static void SK_VECTORCALL store_srgb_1(SkRasterPipeline::Stage* st, size_t x,
219 Sk4f r, Sk4f g, Sk4f b, Sk4f a,
220 Sk4f dr, Sk4f dg, Sk4f db, Sk4f da) {
221 auto dst = st->ctx<uint32_t*>() + x;
222 *dst = Sk4f_toS32(swizzle_rb_if_bgra({ r[0], g[0], b[0], a[0] }));
223 }
224
225
226 template <typename Effect>
227 static bool append_effect_stages(const Effect* effect, SkRasterPipeline* pipelin e) {
228 return !effect || effect->appendStages(pipeline);
229 }
230
231
232 SkBlitter* SkRasterPipelineBlitter::Create(const SkPixmap& dst,
233 const SkPaint& paint,
234 SkTBlitterAllocator* alloc) {
235 if (!dst.info().gammaCloseToSRGB()) {
236 return nullptr; // TODO: f16, etc.
237 }
238 if (paint.getShader()) {
239 return nullptr; // TODO: need to work out how shaders and their context s work
240 }
241
242 SkRasterPipeline shader, colorFilter, xfermode;
243 if (!append_effect_stages(paint.getColorFilter(), &colorFilter) ||
244 !append_effect_stages(paint.getXfermode(), &xfermode )) {
245 return nullptr;
246 }
247
248 auto blitter = alloc->createT<SkRasterPipelineBlitter>(
249 dst,
250 shader, colorFilter, xfermode,
251 SkColor4f::FromColor(paint.getColor()).premul());
252
253 if (!paint.getShader()) {
254 blitter->fShader.append(constant_color, &blitter->fPaintColor);
255 }
256 if (!paint.getXfermode()) {
257 blitter->fXfermode.append(srcover);
258 }
259
260 return blitter;
261 }
262
263 void SkRasterPipelineBlitter::blitH(int x, int y, int w) {
264 auto dst = fDst.writable_addr(0,y);
265
266 SkRasterPipeline p;
267 p.extend(fShader);
268 p.extend(fColorFilter);
269 p.append(load_d_srgb, load_d_srgb_1, dst);
270 p.extend(fXfermode);
271 p.append(store_srgb, store_srgb_1, dst);
272
273 p.run(x, w);
274 }
275
276 void SkRasterPipelineBlitter::blitAntiH(int x, int y, const SkAlpha aa[], const int16_t runs[]) {
277 auto dst = fDst.writable_addr(0,y);
278 float coverage;
279
280 SkRasterPipeline p;
281 p.extend(fShader);
282 p.extend(fColorFilter);
283 p.append(load_d_srgb, load_d_srgb_1, dst);
284 p.extend(fXfermode);
285 p.append(lerp_constant_float, &coverage);
286 p.append(store_srgb, store_srgb_1, dst);
287
288 for (int16_t run = *runs; run > 0; run = *runs) {
289 coverage = *aa * (1/255.0f);
290 p.run(x, run);
291
292 x += run;
293 runs += run;
294 aa += run;
295 }
296 }
297
298 void SkRasterPipelineBlitter::blitMask(const SkMask& mask, const SkIRect& clip) {
299 if (mask.fFormat == SkMask::kBW_Format) {
300 // TODO: native BW masks?
301 return INHERITED::blitMask(mask, clip);
302 }
303
304 int x = clip.left();
305 for (int y = clip.top(); y < clip.bottom(); y++) {
306 auto dst = fDst.writable_addr(0,y);
307
308 SkRasterPipeline p;
309 p.extend(fShader);
310 p.extend(fColorFilter);
311 p.append(load_d_srgb, load_d_srgb_1, dst);
312 p.extend(fXfermode);
313 switch (mask.fFormat) {
314 case SkMask::kA8_Format:
315 p.append(lerp_a8, lerp_a8_1, mask.getAddr8(x,y)-x);
316 break;
317 case SkMask::kLCD16_Format:
318 p.append(lerp_lcd16, lerp_lcd16_1, mask.getAddrLCD16(x,y)-x);
319 break;
320 default: break;
321 }
322 p.append(store_srgb, store_srgb_1, dst);
323
324 p.run(x, clip.width());
325 }
326 }
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