#pragma once namespace nall { struct image { enum class blend : unsigned { add, sourceAlpha, //color = sourceColor * sourceAlpha + targetColor * (1 - sourceAlpha) sourceColor, //color = sourceColor targetAlpha, //color = targetColor * targetAlpha + sourceColor * (1 - targetAlpha) targetColor, //color = targetColor }; struct channel { channel(uint64_t mask, unsigned depth, unsigned shift) : _mask(mask), _depth(depth), _shift(shift) { } auto operator==(const channel& source) const -> bool { return _mask == source._mask && _depth == source._depth && _shift == source._shift; } auto operator!=(const channel& source) const -> bool { return !operator==(source); } alwaysinline auto mask() const { return _mask; } alwaysinline auto depth() const { return _depth; } alwaysinline auto shift() const { return _shift; } private: uint64_t _mask; unsigned _depth; unsigned _shift; }; //core.hpp inline image(const image& source); inline image(image&& source); inline image(bool endian, unsigned depth, uint64_t alphaMask, uint64_t redMask, uint64_t greenMask, uint64_t blueMask); inline image(const string& filename); inline image(const vector& buffer); inline image(const uint8_t* data, unsigned size); inline image(); inline ~image(); inline auto operator=(const image& source) -> image&; inline auto operator=(image&& source) -> image&; inline explicit operator bool() const; inline auto operator==(const image& source) const -> bool; inline auto operator!=(const image& source) const -> bool; inline auto read(const uint8_t* data) const -> uint64_t; inline auto write(uint8_t* data, uint64_t value) const -> void; inline auto free() -> void; inline auto load(const string& filename) -> bool; inline auto allocate(unsigned width, unsigned height) -> void; //fill.hpp inline auto fill(uint64_t color = 0) -> void; inline auto gradient(uint64_t a, uint64_t b, uint64_t c, uint64_t d) -> void; inline auto gradient(uint64_t a, uint64_t b, signed radiusX, signed radiusY, signed centerX, signed centerY, function callback) -> void; inline auto crossGradient(uint64_t a, uint64_t b, signed radiusX, signed radiusY, signed centerX, signed centerY) -> void; inline auto diamondGradient(uint64_t a, uint64_t b, signed radiusX, signed radiusY, signed centerX, signed centerY) -> void; inline auto horizontalGradient(uint64_t a, uint64_t b, signed radiusX, signed radiusY, signed centerX, signed centerY) -> void; inline auto radialGradient(uint64_t a, uint64_t b, signed radiusX, signed radiusY, signed centerX, signed centerY) -> void; inline auto sphericalGradient(uint64_t a, uint64_t b, signed radiusX, signed radiusY, signed centerX, signed centerY) -> void; inline auto squareGradient(uint64_t a, uint64_t b, signed radiusX, signed radiusY, signed centerX, signed centerY) -> void; inline auto verticalGradient(uint64_t a, uint64_t b, signed radiusX, signed radiusY, signed centerX, signed centerY) -> void; //scale.hpp inline auto scale(unsigned width, unsigned height, bool linear = true) -> void; //blend.hpp inline auto impose(blend mode, unsigned targetX, unsigned targetY, image source, unsigned x, unsigned y, unsigned width, unsigned height) -> void; //utility.hpp inline auto crop(unsigned x, unsigned y, unsigned width, unsigned height) -> bool; inline auto alphaBlend(uint64_t alphaColor) -> void; inline auto alphaMultiply() -> void; inline auto transform(const image& source = {}) -> void; inline auto transform(bool endian, unsigned depth, uint64_t alphaMask, uint64_t redMask, uint64_t greenMask, uint64_t blueMask) -> void; //static.hpp static inline auto bitDepth(uint64_t color) -> unsigned; static inline auto bitShift(uint64_t color) -> unsigned; static inline auto normalize(uint64_t color, unsigned sourceDepth, unsigned targetDepth) -> uint64_t; //access alwaysinline auto data() { return _data; } alwaysinline auto data() const { return _data; } alwaysinline auto width() const { return _width; } alwaysinline auto height() const { return _height; } alwaysinline auto endian() const { return _endian; } alwaysinline auto depth() const { return _depth; } alwaysinline auto stride() const { return (_depth + 7) >> 3; } alwaysinline auto pitch() const { return _width * stride(); } alwaysinline auto size() const { return _height * pitch(); } alwaysinline auto alpha() const { return _alpha; } alwaysinline auto red() const { return _red; } alwaysinline auto green() const { return _green; } alwaysinline auto blue() const { return _blue; } private: //core.hpp inline auto allocate(unsigned width, unsigned height, unsigned stride) -> uint8_t*; //scale.hpp inline auto scaleLinearWidth(unsigned width) -> void; inline auto scaleLinearHeight(unsigned height) -> void; inline auto scaleLinear(unsigned width, unsigned height) -> void; inline auto scaleNearest(unsigned width, unsigned height) -> void; //load.hpp inline auto loadBMP(const string& filename) -> bool; inline auto loadBMP(const uint8_t* data, unsigned size) -> bool; inline auto loadPNG(const string& filename) -> bool; inline auto loadPNG(const uint8_t* data, unsigned size) -> bool; //interpolation.hpp alwaysinline auto isplit(uint64_t* component, uint64_t color) -> void; alwaysinline auto imerge(const uint64_t* component) -> uint64_t; alwaysinline auto interpolate1f(uint64_t a, uint64_t b, double x) -> uint64_t; alwaysinline auto interpolate1f(uint64_t a, uint64_t b, uint64_t c, uint64_t d, double x, double y) -> uint64_t; alwaysinline auto interpolate1i(int64_t a, int64_t b, uint32_t x) -> uint64_t; alwaysinline auto interpolate1i(int64_t a, int64_t b, int64_t c, int64_t d, uint32_t x, uint32_t y) -> uint64_t; inline auto interpolate4f(uint64_t a, uint64_t b, double x) -> uint64_t; inline auto interpolate4f(uint64_t a, uint64_t b, uint64_t c, uint64_t d, double x, double y) -> uint64_t; inline auto interpolate4i(uint64_t a, uint64_t b, uint32_t x) -> uint64_t; inline auto interpolate4i(uint64_t a, uint64_t b, uint64_t c, uint64_t d, uint32_t x, uint32_t y) -> uint64_t; uint8_t* _data = nullptr; unsigned _width = 0; unsigned _height = 0; bool _endian = 0; //0 = lsb, 1 = msb unsigned _depth = 32; channel _alpha{255u << 24, 8, 24}; channel _red {255u << 16, 8, 16}; channel _green{255u << 8, 8, 8}; channel _blue {255u << 0, 8, 0}; }; }