/* * Copyright 2016 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef Sk4fGradientPriv_DEFINED #define Sk4fGradientPriv_DEFINED #include "SkColor.h" #include "SkHalf.h" #include "SkImageInfo.h" #include "SkNx.h" #include "SkPM4f.h" #include "SkPM4fPriv.h" #include "SkUtils.h" // Templates shared by various 4f gradient flavors. namespace { enum class ApplyPremul { True, False }; enum class DstType { L32, // Linear 32bit. Used for both shader/blitter paths. S32, // SRGB 32bit. Used for the blitter path only. F16, // Linear half-float. Used for blitters only. F32, // Linear float. Used for shaders only. }; template <ApplyPremul> struct PremulTraits; template <> struct PremulTraits<ApplyPremul::False> { static Sk4f apply(const Sk4f& c) { return c; } }; template <> struct PremulTraits<ApplyPremul::True> { static Sk4f apply(const Sk4f& c) { const float alpha = c[SkPM4f::A]; // FIXME: portable swizzle? return c * Sk4f(alpha, alpha, alpha, 1); } }; // Struct encapsulating various dest-dependent ops: // // - load() Load a SkPM4f value into Sk4f. Normally called once per interval // advance. Also applies a scale and swizzle suitable for DstType. // // - store() Store one Sk4f to dest. Optionally handles premul, color space // conversion, etc. // // - store(count) Store the Sk4f value repeatedly to dest, count times. // // - store4x() Store 4 Sk4f values to dest (opportunistic optimization). // template <DstType, ApplyPremul premul> struct DstTraits; template <ApplyPremul premul> struct DstTraits<DstType::L32, premul> { using PM = PremulTraits<premul>; using Type = SkPMColor; // For L32, prescaling by 255 saves a per-pixel multiplication when premul is not needed. static Sk4f load(const SkPM4f& c) { return premul == ApplyPremul::False ? c.to4f_pmorder() * Sk4f(255) : c.to4f_pmorder(); } static void store(const Sk4f& c, Type* dst) { if (premul == ApplyPremul::False) { // c is prescaled by 255, just store. SkNx_cast<uint8_t>(c).store(dst); } else { *dst = Sk4f_toL32(PM::apply(c)); } } static void store(const Sk4f& c, Type* dst, int n) { Type pmc; store(c, &pmc); sk_memset32(dst, pmc, n); } static void store4x(const Sk4f& c0, const Sk4f& c1, const Sk4f& c2, const Sk4f& c3, Type* dst) { if (premul == ApplyPremul::False) { Sk4f_ToBytes((uint8_t*)dst, c0, c1, c2, c3); } else { store(c0, dst + 0); store(c1, dst + 1); store(c2, dst + 2); store(c3, dst + 3); } } }; template <ApplyPremul premul> struct DstTraits<DstType::S32, premul> { using PM = PremulTraits<premul>; using Type = SkPMColor; static Sk4f load(const SkPM4f& c) { return c.to4f_pmorder(); } static void store(const Sk4f& c, Type* dst) { // FIXME: this assumes opaque colors. Handle unpremultiplication. *dst = Sk4f_toS32(PM::apply(c)); } static void store(const Sk4f& c, Type* dst, int n) { sk_memset32(dst, Sk4f_toS32(PM::apply(c)), n); } static void store4x(const Sk4f& c0, const Sk4f& c1, const Sk4f& c2, const Sk4f& c3, Type* dst) { store(c0, dst + 0); store(c1, dst + 1); store(c2, dst + 2); store(c3, dst + 3); } }; template <ApplyPremul premul> struct DstTraits<DstType::F16, premul> { using PM = PremulTraits<premul>; using Type = uint64_t; static Sk4f load(const SkPM4f& c) { return c.to4f(); } static void store(const Sk4f& c, Type* dst) { SkFloatToHalf_finite_ftz(PM::apply(c)).store(dst); } static void store(const Sk4f& c, Type* dst, int n) { uint64_t color; SkFloatToHalf_finite_ftz(PM::apply(c)).store(&color); sk_memset64(dst, color, n); } static void store4x(const Sk4f& c0, const Sk4f& c1, const Sk4f& c2, const Sk4f& c3, Type* dst) { store(c0, dst + 0); store(c1, dst + 1); store(c2, dst + 2); store(c3, dst + 3); } }; template <ApplyPremul premul> struct DstTraits<DstType::F32, premul> { using PM = PremulTraits<premul>; using Type = SkPM4f; static Sk4f load(const SkPM4f& c) { return c.to4f(); } static void store(const Sk4f& c, Type* dst) { PM::apply(c).store(dst->fVec); } static void store(const Sk4f& c, Type* dst, int n) { const Sk4f pmc = PM::apply(c); for (int i = 0; i < n; ++i) { pmc.store(dst[i].fVec); } } static void store4x(const Sk4f& c0, const Sk4f& c1, const Sk4f& c2, const Sk4f& c3, Type* dst) { store(c0, dst + 0); store(c1, dst + 1); store(c2, dst + 2); store(c3, dst + 3); } }; } // anonymous namespace #endif // Sk4fGradientPriv_DEFINED