/* * 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 SkEncodedInfo_DEFINED #define SkEncodedInfo_DEFINED #include "include/core/SkData.h" #include "include/core/SkImageInfo.h" #include "skcms.h" struct SkEncodedInfo { public: class ICCProfile { public: static std::unique_ptr Make(sk_sp); static std::unique_ptr Make(const skcms_ICCProfile&); const skcms_ICCProfile* profile() const { return &fProfile; } private: ICCProfile(const skcms_ICCProfile&, sk_sp = nullptr); skcms_ICCProfile fProfile; sk_sp fData; }; enum Alpha { kOpaque_Alpha, kUnpremul_Alpha, // Each pixel is either fully opaque or fully transparent. // There is no difference between requesting kPremul or kUnpremul. kBinary_Alpha, }; /* * We strive to make the number of components per pixel obvious through * our naming conventions. * Ex: kRGB has 3 components. kRGBA has 4 components. * * This sometimes results in redundant Alpha and Color information. * Ex: kRGB images must also be kOpaque. */ enum Color { // PNG, WBMP kGray_Color, // PNG kGrayAlpha_Color, // PNG with Skia-specific sBIT // Like kGrayAlpha, except this expects to be treated as // kAlpha_8_SkColorType, which ignores the gray component. If // decoded to full color (e.g. kN32), the gray component is respected // (so it can share code with kGrayAlpha). kXAlpha_Color, // PNG // 565 images may be encoded to PNG by specifying the number of // significant bits for each channel. This is a strange 565 // representation because the image is still encoded with 8 bits per // component. k565_Color, // PNG, GIF, BMP kPalette_Color, // PNG, RAW kRGB_Color, kRGBA_Color, // BMP kBGR_Color, kBGRX_Color, kBGRA_Color, // JPEG, WEBP kYUV_Color, // WEBP kYUVA_Color, // JPEG // Photoshop actually writes inverted CMYK data into JPEGs, where zero // represents 100% ink coverage. For this reason, we treat CMYK JPEGs // as having inverted CMYK. libjpeg-turbo warns that this may break // other applications, but the CMYK JPEGs we see on the web expect to // be treated as inverted CMYK. kInvertedCMYK_Color, kYCCK_Color, }; static SkEncodedInfo Make(int width, int height, Color color, Alpha alpha, int bitsPerComponent) { return Make(width, height, color, alpha, bitsPerComponent, nullptr); } static SkEncodedInfo Make(int width, int height, Color color, Alpha alpha, int bitsPerComponent, std::unique_ptr profile) { SkASSERT(1 == bitsPerComponent || 2 == bitsPerComponent || 4 == bitsPerComponent || 8 == bitsPerComponent || 16 == bitsPerComponent); switch (color) { case kGray_Color: SkASSERT(kOpaque_Alpha == alpha); break; case kGrayAlpha_Color: SkASSERT(kOpaque_Alpha != alpha); break; case kPalette_Color: SkASSERT(16 != bitsPerComponent); break; case kRGB_Color: case kBGR_Color: case kBGRX_Color: SkASSERT(kOpaque_Alpha == alpha); SkASSERT(bitsPerComponent >= 8); break; case kYUV_Color: case kInvertedCMYK_Color: case kYCCK_Color: SkASSERT(kOpaque_Alpha == alpha); SkASSERT(8 == bitsPerComponent); break; case kRGBA_Color: SkASSERT(bitsPerComponent >= 8); break; case kBGRA_Color: case kYUVA_Color: SkASSERT(8 == bitsPerComponent); break; case kXAlpha_Color: SkASSERT(kUnpremul_Alpha == alpha); SkASSERT(8 == bitsPerComponent); break; case k565_Color: SkASSERT(kOpaque_Alpha == alpha); SkASSERT(8 == bitsPerComponent); break; default: SkASSERT(false); break; } return SkEncodedInfo(width, height, color, alpha, bitsPerComponent, std::move(profile)); } /* * Returns a recommended SkImageInfo. * * TODO: Leave this up to the client. */ SkImageInfo makeImageInfo() const { auto ct = kGray_Color == fColor ? kGray_8_SkColorType : kXAlpha_Color == fColor ? kAlpha_8_SkColorType : k565_Color == fColor ? kRGB_565_SkColorType : kN32_SkColorType ; auto alpha = kOpaque_Alpha == fAlpha ? kOpaque_SkAlphaType : kUnpremul_SkAlphaType; sk_sp cs = fProfile ? SkColorSpace::Make(*fProfile->profile()) : nullptr; if (!cs) { cs = SkColorSpace::MakeSRGB(); } return SkImageInfo::Make(fWidth, fHeight, ct, alpha, std::move(cs)); } int width() const { return fWidth; } int height() const { return fHeight; } Color color() const { return fColor; } Alpha alpha() const { return fAlpha; } bool opaque() const { return fAlpha == kOpaque_Alpha; } const skcms_ICCProfile* profile() const { if (!fProfile) return nullptr; return fProfile->profile(); } uint8_t bitsPerComponent() const { return fBitsPerComponent; } uint8_t bitsPerPixel() const { switch (fColor) { case kGray_Color: return fBitsPerComponent; case kXAlpha_Color: case kGrayAlpha_Color: return 2 * fBitsPerComponent; case kPalette_Color: return fBitsPerComponent; case kRGB_Color: case kBGR_Color: case kYUV_Color: case k565_Color: return 3 * fBitsPerComponent; case kRGBA_Color: case kBGRA_Color: case kBGRX_Color: case kYUVA_Color: case kInvertedCMYK_Color: case kYCCK_Color: return 4 * fBitsPerComponent; default: SkASSERT(false); return 0; } } SkEncodedInfo(const SkEncodedInfo& orig) = delete; SkEncodedInfo& operator=(const SkEncodedInfo&) = delete; SkEncodedInfo(SkEncodedInfo&& orig) = default; SkEncodedInfo& operator=(SkEncodedInfo&&) = default; // Explicit copy method, to avoid accidental copying. SkEncodedInfo copy() const { auto copy = SkEncodedInfo::Make(fWidth, fHeight, fColor, fAlpha, fBitsPerComponent); if (fProfile) { copy.fProfile.reset(new ICCProfile(*fProfile.get())); } return copy; } private: SkEncodedInfo(int width, int height, Color color, Alpha alpha, uint8_t bitsPerComponent, std::unique_ptr profile) : fWidth(width) , fHeight(height) , fColor(color) , fAlpha(alpha) , fBitsPerComponent(bitsPerComponent) , fProfile(std::move(profile)) {} int fWidth; int fHeight; Color fColor; Alpha fAlpha; uint8_t fBitsPerComponent; std::unique_ptr fProfile; }; #endif