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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 "SkHalf.h"
9 #include "SkPM4fPriv.h"
10 #include "SkUtils.h"
11 #include "SkXfermode.h"
12 
sk_memset64(uint64_t dst[],uint64_t value,int count)13 static void sk_memset64(uint64_t dst[], uint64_t value, int count) {
14     for (int i = 0; i < count; ++i) {
15         dst[i] = value;
16     }
17 }
18 
19 enum DstType {
20     kU16_Dst,
21     kF16_Dst,
22 };
23 
lerp_by_coverage(const Sk4f & src,const Sk4f & dst,uint8_t srcCoverage)24 static Sk4f lerp_by_coverage(const Sk4f& src, const Sk4f& dst, uint8_t srcCoverage) {
25     return dst + (src - dst) * Sk4f(srcCoverage * (1/255.0f));
26 }
27 
unit_to_bias(const Sk4f & x4)28 template <DstType D> Sk4f unit_to_bias(const Sk4f& x4) {
29     return (D == kU16_Dst) ? x4 * Sk4f(65535) : x4;
30 }
31 
bias_to_unit(const Sk4f & x4)32 template <DstType D> Sk4f bias_to_unit(const Sk4f& x4) {
33     return (D == kU16_Dst) ? x4 * Sk4f(1.0f/65535) : x4;
34 }
35 
36 // returns value already biased by 65535
load_from_u16(uint64_t value)37 static Sk4f load_from_u16(uint64_t value) {
38     return SkNx_cast<float>(Sk4h::Load(&value));
39 }
40 
41 // takes floats already biased by 65535
store_to_u16(const Sk4f & x4)42 static uint64_t store_to_u16(const Sk4f& x4) {
43     uint64_t value;
44     SkNx_cast<uint16_t>(x4 + Sk4f(0.5f)).store(&value);
45     return value;
46 }
47 
48 // Returns dst in its "natural" bias (either unit-float or 16bit int)
49 //
load_from_dst(uint64_t dst)50 template <DstType D> Sk4f load_from_dst(uint64_t dst) {
51     return (D == kU16_Dst) ? load_from_u16(dst) : SkHalfToFloat_01(dst);
52 }
53 
54 // Assumes x4 is already in the "natural" bias (either unit-float or 16bit int)
store_to_dst(const Sk4f & x4)55 template <DstType D> uint64_t store_to_dst(const Sk4f& x4) {
56     return (D == kU16_Dst) ? store_to_u16(x4) : SkFloatToHalf_01(x4);
57 }
58 
pm_to_rgba_order(const Sk4f & x)59 static inline Sk4f pm_to_rgba_order(const Sk4f& x) {
60     if (SkPM4f::R == 0) {
61         return x;   // we're already RGBA
62     } else {
63         // we're BGRA, so swap R and B
64         return SkNx_shuffle<2, 1, 0, 3>(x);
65     }
66 }
67 
68 ///////////////////////////////////////////////////////////////////////////////////////////////////
69 
xfer_u64_1(const SkXfermode * xfer,uint64_t dst[],const SkPM4f * src,int count,const SkAlpha aa[])70 template <DstType D> void xfer_u64_1(const SkXfermode* xfer, uint64_t dst[],
71                                      const SkPM4f* src, int count, const SkAlpha aa[]) {
72     SkXfermodeProc4f proc = xfer->getProc4f();
73     SkPM4f d;
74     if (aa) {
75         for (int i = 0; i < count; ++i) {
76             Sk4f d4 = bias_to_unit<D>(load_from_dst<D>(dst[i]));
77             d4.store(d.fVec);
78             Sk4f r4 = unit_to_bias<D>(Sk4f::Load(proc(*src, d).fVec));
79             dst[i] = store_to_dst<D>(lerp_by_coverage(r4, d4, aa[i]));
80         }
81     } else {
82         for (int i = 0; i < count; ++i) {
83             bias_to_unit<D>(load_from_dst<D>(dst[i])).store(d.fVec);
84             Sk4f r4 = unit_to_bias<D>(Sk4f::Load(proc(*src, d).fVec));
85             dst[i] = store_to_dst<D>(r4);
86         }
87     }
88 }
89 
xfer_u64_n(const SkXfermode * xfer,uint64_t dst[],const SkPM4f src[],int count,const SkAlpha aa[])90 template <DstType D> void xfer_u64_n(const SkXfermode* xfer, uint64_t dst[],
91                                      const SkPM4f src[], int count, const SkAlpha aa[]) {
92     SkXfermodeProc4f proc = xfer->getProc4f();
93     SkPM4f d;
94     if (aa) {
95         for (int i = 0; i < count; ++i) {
96             Sk4f d4 = bias_to_unit<D>(load_from_dst<D>(dst[i]));
97             d4.store(d.fVec);
98             Sk4f r4 = unit_to_bias<D>(Sk4f::Load(proc(src[i], d).fVec));
99             dst[i] = store_to_dst<D>(lerp_by_coverage(r4, d4, aa[i]));
100         }
101     } else {
102         for (int i = 0; i < count; ++i) {
103             bias_to_unit<D>(load_from_dst<D>(dst[i])).store(d.fVec);
104             Sk4f r4 = unit_to_bias<D>(Sk4f::Load(proc(src[i], d).fVec));
105             dst[i] = store_to_dst<D>(r4);
106         }
107     }
108 }
109 
110 const SkXfermode::D64Proc gProcs_General[] = {
111     xfer_u64_n<kU16_Dst>,   xfer_u64_n<kU16_Dst>,
112     xfer_u64_1<kU16_Dst>,   xfer_u64_1<kU16_Dst>,
113     xfer_u64_n<kF16_Dst>,   xfer_u64_n<kF16_Dst>,
114     xfer_u64_1<kF16_Dst>,   xfer_u64_1<kF16_Dst>,
115 };
116 
117 ///////////////////////////////////////////////////////////////////////////////////////////////////
118 
clear(const SkXfermode *,uint64_t dst[],const SkPM4f *,int count,const SkAlpha aa[])119 template <DstType D> void clear(const SkXfermode*, uint64_t dst[],
120                                 const SkPM4f*, int count, const SkAlpha aa[]) {
121     if (aa) {
122         for (int i = 0; i < count; ++i) {
123             if (aa[i]) {
124                 const Sk4f d4 = load_from_dst<D>(dst[i]);
125                 dst[i] = store_to_dst<D>(d4 * Sk4f((255 - aa[i]) * 1.0f/255));
126             }
127         }
128     } else {
129         sk_memset64(dst, 0, count);
130     }
131 }
132 
133 const SkXfermode::D64Proc gProcs_Clear[] = {
134     clear<kU16_Dst>,    clear<kU16_Dst>,
135     clear<kU16_Dst>,    clear<kU16_Dst>,
136     clear<kF16_Dst>,    clear<kF16_Dst>,
137     clear<kF16_Dst>,    clear<kF16_Dst>,
138 };
139 
140 ///////////////////////////////////////////////////////////////////////////////////////////////////
141 
src_1(const SkXfermode *,uint64_t dst[],const SkPM4f * src,int count,const SkAlpha aa[])142 template <DstType D> void src_1(const SkXfermode*, uint64_t dst[],
143                                 const SkPM4f* src, int count, const SkAlpha aa[]) {
144     const Sk4f s4 = pm_to_rgba_order(unit_to_bias<D>(Sk4f::Load(src->fVec)));
145     if (aa) {
146         for (int i = 0; i < count; ++i) {
147             const Sk4f d4 = load_from_dst<D>(dst[i]);
148             dst[i] = store_to_dst<D>(lerp_by_coverage(s4, d4, aa[i]));
149         }
150     } else {
151         sk_memset64(dst, store_to_dst<D>(s4), count);
152     }
153 }
154 
src_n(const SkXfermode *,uint64_t dst[],const SkPM4f src[],int count,const SkAlpha aa[])155 template <DstType D> void src_n(const SkXfermode*, uint64_t dst[],
156                                 const SkPM4f src[], int count, const SkAlpha aa[]) {
157     if (aa) {
158         for (int i = 0; i < count; ++i) {
159             const Sk4f s4 = pm_to_rgba_order(unit_to_bias<D>(Sk4f::Load(src[i].fVec)));
160             const Sk4f d4 = load_from_dst<D>(dst[i]);
161             dst[i] = store_to_dst<D>(lerp_by_coverage(s4, d4, aa[i]));
162         }
163     } else {
164         for (int i = 0; i < count; ++i) {
165             const Sk4f s4 = pm_to_rgba_order(unit_to_bias<D>(Sk4f::Load(src[i].fVec)));
166             dst[i] = store_to_dst<D>(s4);
167         }
168     }
169 }
170 
171 const SkXfermode::D64Proc gProcs_Src[] = {
172     src_n<kU16_Dst>,    src_n<kU16_Dst>,
173     src_1<kU16_Dst>,    src_1<kU16_Dst>,
174     src_n<kF16_Dst>,    src_n<kF16_Dst>,
175     src_1<kF16_Dst>,    src_1<kF16_Dst>,
176 };
177 
178 ///////////////////////////////////////////////////////////////////////////////////////////////////
179 
dst(const SkXfermode *,uint64_t *,const SkPM4f *,int count,const SkAlpha[])180 static void dst(const SkXfermode*, uint64_t*, const SkPM4f*, int count, const SkAlpha[]) {}
181 
182 const SkXfermode::D64Proc gProcs_Dst[] = {
183     dst, dst, dst, dst, dst, dst, dst, dst,
184 };
185 
186 ///////////////////////////////////////////////////////////////////////////////////////////////////
187 
srcover_1(const SkXfermode *,uint64_t dst[],const SkPM4f * src,int count,const SkAlpha aa[])188 template <DstType D> void srcover_1(const SkXfermode*, uint64_t dst[],
189                                     const SkPM4f* src, int count, const SkAlpha aa[]) {
190     const Sk4f s4 = pm_to_rgba_order(Sk4f::Load(src->fVec));
191     const Sk4f dst_scale = Sk4f(1 - get_alpha(s4));
192     const Sk4f s4bias = unit_to_bias<D>(s4);
193     for (int i = 0; i < count; ++i) {
194         const Sk4f d4bias = load_from_dst<D>(dst[i]);
195         const Sk4f r4bias = s4bias + d4bias * dst_scale;
196         if (aa) {
197             dst[i] = store_to_dst<D>(lerp_by_coverage(r4bias, d4bias, aa[i]));
198         } else {
199             dst[i] = store_to_dst<D>(r4bias);
200         }
201     }
202 }
203 
srcover_n(const SkXfermode *,uint64_t dst[],const SkPM4f src[],int count,const SkAlpha aa[])204 template <DstType D> void srcover_n(const SkXfermode*, uint64_t dst[],
205                                     const SkPM4f src[], int count, const SkAlpha aa[]) {
206     for (int i = 0; i < count; ++i) {
207         const Sk4f s4 = pm_to_rgba_order(Sk4f::Load(src[i].fVec));
208         const Sk4f dst_scale = Sk4f(1 - get_alpha(s4));
209         const Sk4f s4bias = unit_to_bias<D>(s4);
210         const Sk4f d4bias = load_from_dst<D>(dst[i]);
211         const Sk4f r4bias = s4bias + d4bias * dst_scale;
212         if (aa) {
213             dst[i] = store_to_dst<D>(lerp_by_coverage(r4bias, d4bias, aa[i]));
214         } else {
215             dst[i] = store_to_dst<D>(r4bias);
216         }
217     }
218 }
219 
220 const SkXfermode::D64Proc gProcs_SrcOver[] = {
221     srcover_n<kU16_Dst>,    src_n<kU16_Dst>,
222     srcover_1<kU16_Dst>,    src_1<kU16_Dst>,
223     srcover_n<kF16_Dst>,    src_n<kF16_Dst>,
224     srcover_1<kF16_Dst>,    src_1<kF16_Dst>,
225 };
226 
227 ///////////////////////////////////////////////////////////////////////////////////////////////////
228 
find_proc(SkXfermode::Mode mode,uint32_t flags)229 static SkXfermode::D64Proc find_proc(SkXfermode::Mode mode, uint32_t flags) {
230     SkASSERT(0 == (flags & ~7));
231     flags &= 7;
232 
233     switch (mode) {
234         case SkXfermode::kClear_Mode:   return gProcs_Clear[flags];
235         case SkXfermode::kSrc_Mode:     return gProcs_Src[flags];
236         case SkXfermode::kDst_Mode:     return gProcs_Dst[flags];
237         case SkXfermode::kSrcOver_Mode: return gProcs_SrcOver[flags];
238         default:
239             break;
240     }
241     return gProcs_General[flags];
242 }
243 
onGetD64Proc(uint32_t flags) const244 SkXfermode::D64Proc SkXfermode::onGetD64Proc(uint32_t flags) const {
245     SkASSERT(0 == (flags & ~7));
246     flags &= 7;
247 
248     Mode mode;
249     return this->asMode(&mode) ? find_proc(mode, flags) : gProcs_General[flags];
250 }
251 
GetD64Proc(SkXfermode * xfer,uint32_t flags)252 SkXfermode::D64Proc SkXfermode::GetD64Proc(SkXfermode* xfer, uint32_t flags) {
253     return xfer ? xfer->onGetD64Proc(flags) : find_proc(SkXfermode::kSrcOver_Mode, flags);
254 }
255 
256