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/*
* Copyright 2016 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "SkPM4fPriv.h"
#include "SkUtils.h"
#include "SkXfermodePriv.h"
#include "Sk4x4f.h"
static SkPM4f rgba_to_pmcolor_order(const SkPM4f& x) {
#ifdef SK_PMCOLOR_IS_BGRA
return {{ x.fVec[2], x.fVec[1], x.fVec[0], x.fVec[3] }};
#else
return x;
#endif
}
enum DstType {
kLinear_Dst,
kSRGB_Dst,
};
static Sk4f scale_by_coverage(const Sk4f& x4, uint8_t coverage) {
return x4 * Sk4f(coverage * (1/255.0f));
}
static Sk4f lerp(const Sk4f& src, const Sk4f& dst, uint8_t srcCoverage) {
return dst + (src - dst) * Sk4f(srcCoverage * (1/255.0f));
}
template <DstType D> Sk4f load_dst(SkPMColor dstC) {
return (D == kSRGB_Dst) ? Sk4f_fromS32(dstC) : Sk4f_fromL32(dstC);
}
template <DstType D> uint32_t store_dst(const Sk4f& x4) {
return (D == kSRGB_Dst) ? Sk4f_toS32(x4) : Sk4f_toL32(x4);
}
static Sk4x4f load_4_srgb(const void* vptr) {
auto ptr = (const uint32_t*)vptr;
Sk4x4f rgba;
rgba.r = { sk_linear_from_srgb[(ptr[0] >> 0) & 0xff],
sk_linear_from_srgb[(ptr[1] >> 0) & 0xff],
sk_linear_from_srgb[(ptr[2] >> 0) & 0xff],
sk_linear_from_srgb[(ptr[3] >> 0) & 0xff] };
rgba.g = { sk_linear_from_srgb[(ptr[0] >> 8) & 0xff],
sk_linear_from_srgb[(ptr[1] >> 8) & 0xff],
sk_linear_from_srgb[(ptr[2] >> 8) & 0xff],
sk_linear_from_srgb[(ptr[3] >> 8) & 0xff] };
rgba.b = { sk_linear_from_srgb[(ptr[0] >> 16) & 0xff],
sk_linear_from_srgb[(ptr[1] >> 16) & 0xff],
sk_linear_from_srgb[(ptr[2] >> 16) & 0xff],
sk_linear_from_srgb[(ptr[3] >> 16) & 0xff] };
rgba.a = SkNx_cast<float>((Sk4i::Load(ptr) >> 24) & 0xff) * (1/255.0f);
return rgba;
}
static void store_4_srgb(void* ptr, const Sk4x4f& p) {
( sk_linear_to_srgb(p.r) << 0
| sk_linear_to_srgb(p.g) << 8
| sk_linear_to_srgb(p.b) << 16
| Sk4f_round(255.0f*p.a) << 24).store(ptr);
}
///////////////////////////////////////////////////////////////////////////////////////////////////
template <DstType D> void general_1(SkBlendMode mode, uint32_t dst[],
const SkPM4f* src, int count, const SkAlpha aa[]) {
const SkPM4f s = rgba_to_pmcolor_order(*src);
SkXfermodeProc4f proc = SkXfermode::GetProc4f(mode);
SkPM4f d;
if (aa) {
for (int i = 0; i < count; ++i) {
Sk4f d4 = load_dst<D>(dst[i]);
d4.store(d.fVec);
Sk4f r4 = Sk4f::Load(proc(s, d).fVec);
dst[i] = store_dst<D>(lerp(r4, d4, aa[i]));
}
} else {
for (int i = 0; i < count; ++i) {
load_dst<D>(dst[i]).store(d.fVec);
Sk4f r4 = Sk4f::Load(proc(s, d).fVec);
dst[i] = store_dst<D>(r4);
}
}
}
template <DstType D> void general_n(SkBlendMode mode, uint32_t dst[],
const SkPM4f src[], int count, const SkAlpha aa[]) {
SkXfermodeProc4f proc = SkXfermode::GetProc4f(mode);
SkPM4f d;
if (aa) {
for (int i = 0; i < count; ++i) {
Sk4f d4 = load_dst<D>(dst[i]);
d4.store(d.fVec);
Sk4f r4 = Sk4f::Load(proc(rgba_to_pmcolor_order(src[i]), d).fVec);
dst[i] = store_dst<D>(lerp(r4, d4, aa[i]));
}
} else {
for (int i = 0; i < count; ++i) {
load_dst<D>(dst[i]).store(d.fVec);
Sk4f r4 = Sk4f::Load(proc(rgba_to_pmcolor_order(src[i]), d).fVec);
dst[i] = store_dst<D>(r4);
}
}
}
const SkXfermode::D32Proc gProcs_General[] = {
general_n<kLinear_Dst>, general_n<kLinear_Dst>,
general_1<kLinear_Dst>, general_1<kLinear_Dst>,
general_n<kSRGB_Dst>, general_n<kSRGB_Dst>,
general_1<kSRGB_Dst>, general_1<kSRGB_Dst>,
};
///////////////////////////////////////////////////////////////////////////////////////////////////
static void clear_linear(SkBlendMode, uint32_t dst[], const SkPM4f[], int count,
const SkAlpha aa[]) {
if (aa) {
for (int i = 0; i < count; ++i) {
unsigned a = aa[i];
if (a) {
SkPMColor dstC = dst[i];
SkPMColor C = 0;
if (0xFF != a) {
C = SkFourByteInterp(C, dstC, a);
}
dst[i] = C;
}
}
} else {
sk_memset32(dst, 0, count);
}
}
static void clear_srgb(SkBlendMode, uint32_t dst[], const SkPM4f[], int count, const SkAlpha aa[]) {
if (aa) {
for (int i = 0; i < count; ++i) {
if (aa[i]) {
Sk4f d = Sk4f_fromS32(dst[i]) * Sk4f((255 - aa[i]) * (1/255.0f));
dst[i] = Sk4f_toS32(d);
}
}
} else {
sk_memset32(dst, 0, count);
}
}
const SkXfermode::D32Proc gProcs_Clear[] = {
clear_linear, clear_linear,
clear_linear, clear_linear,
clear_srgb, clear_srgb,
clear_srgb, clear_srgb,
};
///////////////////////////////////////////////////////////////////////////////////////////////////
template <DstType D> void src_n(SkBlendMode, uint32_t dst[], const SkPM4f src[], int count,
const SkAlpha aa[]) {
for (int i = 0; i < count; ++i) {
unsigned a = 0xFF;
if (aa) {
a = aa[i];
if (0 == a) {
continue;
}
}
Sk4f r4 = src[i].to4f_pmorder();
if (a != 0xFF) {
Sk4f d4 = load_dst<D>(dst[i]);
r4 = lerp(r4, d4, a);
}
dst[i] = store_dst<D>(r4);
}
}
static Sk4f lerp(const Sk4f& src, const Sk4f& dst, const Sk4f& src_scale) {
return dst + (src - dst) * src_scale;
}
template <DstType D> void src_1(SkBlendMode, uint32_t dst[], const SkPM4f* src, int count,
const SkAlpha aa[]) {
const Sk4f s4 = src->to4f_pmorder();
if (aa) {
SkPMColor srcColor = store_dst<D>(s4);
while (count-- > 0) {
SkAlpha cover = *aa++;
switch (cover) {
case 0xFF: {
*dst++ = srcColor;
break;
}
case 0x00: {
dst++;
break;
}
default: {
Sk4f d4 = load_dst<D>(*dst);
*dst++ = store_dst<D>(lerp(s4, d4, cover));
}
}
}
} else {
sk_memset32(dst, store_dst<D>(s4), count);
}
}
const SkXfermode::D32Proc gProcs_Src[] = {
src_n<kLinear_Dst>, src_n<kLinear_Dst>,
src_1<kLinear_Dst>, src_1<kLinear_Dst>,
src_n<kSRGB_Dst>, src_n<kSRGB_Dst>,
src_1<kSRGB_Dst>, src_1<kSRGB_Dst>,
};
///////////////////////////////////////////////////////////////////////////////////////////////////
static void dst(SkBlendMode, uint32_t dst[], const SkPM4f[], int count, const SkAlpha aa[]) {}
const SkXfermode::D32Proc gProcs_Dst[] = {
dst, dst, dst, dst, dst, dst, dst, dst,
};
///////////////////////////////////////////////////////////////////////////////////////////////////
template <DstType D> void srcover_n(SkBlendMode, uint32_t dst[], const SkPM4f src[], int count,
const SkAlpha aa[]) {
if (aa) {
for (int i = 0; i < count; ++i) {
unsigned a = aa[i];
if (0 == a) {
continue;
}
Sk4f s4 = src[i].to4f_pmorder();
Sk4f d4 = load_dst<D>(dst[i]);
if (a != 0xFF) {
s4 = scale_by_coverage(s4, a);
}
Sk4f r4 = s4 + d4 * Sk4f(1 - get_alpha(s4));
dst[i] = store_dst<D>(r4);
}
} else {
while (count >= 4 && D == kSRGB_Dst) {
auto d = load_4_srgb(dst);
auto s = Sk4x4f::Transpose(src->fVec);
#if defined(SK_PMCOLOR_IS_BGRA)
SkTSwap(s.r, s.b);
#endif
auto invSA = 1.0f - s.a;
auto r = s.r + d.r * invSA,
g = s.g + d.g * invSA,
b = s.b + d.b * invSA,
a = s.a + d.a * invSA;
store_4_srgb(dst, Sk4x4f{r,g,b,a});
count -= 4;
dst += 4;
src += 4;
}
for (int i = 0; i < count; ++i) {
Sk4f s4 = src[i].to4f_pmorder();
Sk4f d4 = load_dst<D>(dst[i]);
Sk4f r4 = s4 + d4 * Sk4f(1 - get_alpha(s4));
dst[i] = store_dst<D>(r4);
}
}
}
static void srcover_linear_dst_1(SkBlendMode, uint32_t dst[], const SkPM4f* src, int count,
const SkAlpha aa[]) {
const Sk4f s4 = src->to4f_pmorder();
const Sk4f dst_scale = Sk4f(1 - get_alpha(s4));
if (aa) {
for (int i = 0; i < count; ++i) {
unsigned a = aa[i];
if (0 == a) {
continue;
}
Sk4f d4 = Sk4f_fromL32(dst[i]);
Sk4f r4;
if (a != 0xFF) {
Sk4f s4_aa = scale_by_coverage(s4, a);
r4 = s4_aa + d4 * Sk4f(1 - get_alpha(s4_aa));
} else {
r4 = s4 + d4 * dst_scale;
}
dst[i] = Sk4f_toL32(r4);
}
} else {
for (int i = 0; i < count; ++i) {
Sk4f d4 = Sk4f_fromL32(dst[i]);
dst[i] = Sk4f_toL32(s4 + d4 * dst_scale);
}
}
}
static void srcover_srgb_dst_1(SkBlendMode, uint32_t dst[], const SkPM4f* src, int count,
const SkAlpha aa[]) {
Sk4f s4 = src->to4f_pmorder();
Sk4f dst_scale = Sk4f(1 - get_alpha(s4));
if (aa) {
for (int i = 0; i < count; ++i) {
unsigned a = aa[i];
if (0 == a) {
continue;
}
Sk4f d4 = Sk4f_fromS32(dst[i]);
Sk4f r4;
if (a != 0xFF) {
const Sk4f s4_aa = scale_by_coverage(s4, a);
r4 = s4_aa + d4 * Sk4f(1 - get_alpha(s4_aa));
} else {
r4 = s4 + d4 * dst_scale;
}
dst[i] = Sk4f_toS32(r4);
}
} else {
while (count >= 4) {
auto d = load_4_srgb(dst);
auto s = Sk4x4f{{ src->r() }, { src->g() }, { src->b() }, { src->a() }};
#if defined(SK_PMCOLOR_IS_BGRA)
SkTSwap(s.r, s.b);
#endif
auto invSA = 1.0f - s.a;
auto r = s.r + d.r * invSA,
g = s.g + d.g * invSA,
b = s.b + d.b * invSA,
a = s.a + d.a * invSA;
store_4_srgb(dst, Sk4x4f{r,g,b,a});
count -= 4;
dst += 4;
}
for (int i = 0; i < count; ++i) {
Sk4f d4 = Sk4f_fromS32(dst[i]);
dst[i] = Sk4f_toS32(s4 + d4 * dst_scale);
}
}
}
const SkXfermode::D32Proc gProcs_SrcOver[] = {
srcover_n<kLinear_Dst>, src_n<kLinear_Dst>,
srcover_linear_dst_1, src_1<kLinear_Dst>,
srcover_n<kSRGB_Dst>, src_n<kSRGB_Dst>,
srcover_srgb_dst_1, src_1<kSRGB_Dst>,
};
///////////////////////////////////////////////////////////////////////////////////////////////////
SkXfermode::D32Proc SkXfermode::GetD32Proc(SkBlendMode mode, uint32_t flags) {
SkASSERT(0 == (flags & ~7));
flags &= 7;
switch (mode) {
case SkBlendMode::kClear: return gProcs_Clear[flags];
case SkBlendMode::kSrc: return gProcs_Src[flags];
case SkBlendMode::kDst: return gProcs_Dst[flags];
case SkBlendMode::kSrcOver: return gProcs_SrcOver[flags];
default:
break;
}
return gProcs_General[flags];
}
///////////////////////////////////////////////////////////////////////////////////////////////////
#include "SkColorPriv.h"
static Sk4f lcd16_to_unit_4f(uint16_t rgb) {
#ifdef SK_PMCOLOR_IS_RGBA
Sk4i rgbi = Sk4i(SkGetPackedR16(rgb), SkGetPackedG16(rgb), SkGetPackedB16(rgb), 0);
#else
Sk4i rgbi = Sk4i(SkGetPackedB16(rgb), SkGetPackedG16(rgb), SkGetPackedR16(rgb), 0);
#endif
return SkNx_cast<float>(rgbi) * Sk4f(1.0f/31, 1.0f/63, 1.0f/31, 0);
}
template <DstType D>
void src_1_lcd(uint32_t dst[], const SkPM4f* src, int count, const uint16_t lcd[]) {
const Sk4f s4 = src->to4f_pmorder();
for (int i = 0; i < count; ++i) {
uint16_t rgb = lcd[i];
if (0 == rgb) {
continue;
}
Sk4f d4 = load_dst<D>(dst[i]);
dst[i] = store_dst<D>(lerp(s4, d4, lcd16_to_unit_4f(rgb))) | (SK_A32_MASK << SK_A32_SHIFT);
}
}
template <DstType D>
void src_n_lcd(uint32_t dst[], const SkPM4f src[], int count, const uint16_t lcd[]) {
for (int i = 0; i < count; ++i) {
uint16_t rgb = lcd[i];
if (0 == rgb) {
continue;
}
Sk4f s4 = src[i].to4f_pmorder();
Sk4f d4 = load_dst<D>(dst[i]);
dst[i] = store_dst<D>(lerp(s4, d4, lcd16_to_unit_4f(rgb))) | (SK_A32_MASK << SK_A32_SHIFT);
}
}
template <DstType D>
void srcover_1_lcd(uint32_t dst[], const SkPM4f* src, int count, const uint16_t lcd[]) {
const Sk4f s4 = src->to4f_pmorder();
Sk4f dst_scale = Sk4f(1 - get_alpha(s4));
for (int i = 0; i < count; ++i) {
uint16_t rgb = lcd[i];
if (0 == rgb) {
continue;
}
Sk4f d4 = load_dst<D>(dst[i]);
Sk4f r4 = s4 + d4 * dst_scale;
r4 = lerp(r4, d4, lcd16_to_unit_4f(rgb));
dst[i] = store_dst<D>(r4) | (SK_A32_MASK << SK_A32_SHIFT);
}
}
template <DstType D>
void srcover_n_lcd(uint32_t dst[], const SkPM4f src[], int count, const uint16_t lcd[]) {
for (int i = 0; i < count; ++i) {
uint16_t rgb = lcd[i];
if (0 == rgb) {
continue;
}
Sk4f s4 = src[i].to4f_pmorder();
Sk4f dst_scale = Sk4f(1 - get_alpha(s4));
Sk4f d4 = load_dst<D>(dst[i]);
Sk4f r4 = s4 + d4 * dst_scale;
r4 = lerp(r4, d4, lcd16_to_unit_4f(rgb));
dst[i] = store_dst<D>(r4) | (SK_A32_MASK << SK_A32_SHIFT);
}
}
SkXfermode::LCD32Proc SkXfermode::GetLCD32Proc(uint32_t flags) {
SkASSERT((flags & ~7) == 0);
flags &= 7;
const LCD32Proc procs[] = {
srcover_n_lcd<kLinear_Dst>, src_n_lcd<kLinear_Dst>,
srcover_1_lcd<kLinear_Dst>, src_1_lcd<kLinear_Dst>,
srcover_n_lcd<kSRGB_Dst>, src_n_lcd<kSRGB_Dst>,
srcover_1_lcd<kSRGB_Dst>, src_1_lcd<kSRGB_Dst>,
};
return procs[flags];
}
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