/* * Copyright (c) 2021, Davipb * * SPDX-License-Identifier: BSD-2-Clause */ #pragma once #include #include #include namespace PixelPaint { class Mask { public: Mask() = default; Mask(Mask const&) = default; Mask& operator=(Mask const&) = default; Mask(Mask&&) = default; Mask& operator=(Mask&&) = default; [[nodiscard]] static Mask empty(Gfx::IntRect rect) { return { rect, 0x00 }; } [[nodiscard]] static Mask full(Gfx::IntRect rect) { return { rect, 0xFF }; } [[nodiscard]] bool is_null() const { return m_data.is_empty(); } [[nodiscard]] Gfx::IntRect bounding_rect() const { return m_bounding_rect; } [[nodiscard]] u8 get(int x, int y) const; [[nodiscard]] u8 get(Gfx::IntPoint point) const { return get(point.x(), point.y()); } [[nodiscard]] float getf(int x, int y) const { return (float)get(x, y) / 255.0f; } [[nodiscard]] float getf(Gfx::IntPoint point) const { return getf(point.x(), point.y()); } void set(int x, int y, u8); void set(Gfx::IntPoint point, u8 value) { set(point.x(), point.y(), value); } void setf(int x, int y, float value) { set(x, y, (u8)clamp(value * 255.0f, 0.0f, 255.0f)); } void setf(Gfx::IntPoint point, float value) { setf(point.x(), point.y(), value); } void shrink_to_fit(); [[nodiscard]] Mask with_bounding_rect(Gfx::IntRect) const; void invert(); void add(Mask const& other); void subtract(Mask const& other); void intersect(Mask const& other); template void for_each_pixel(Func func) const { for (int x = m_bounding_rect.left(); x <= m_bounding_rect.right(); x++) { for (int y = m_bounding_rect.top(); y <= m_bounding_rect.bottom(); y++) { func(x, y); } } } private: Gfx::IntRect m_bounding_rect {}; Vector m_data {}; Mask(Gfx::IntRect, u8 default_value); [[nodiscard]] size_t to_index(int x, int y) const; template void combine(Mask const& other, Func func) { auto new_bounding_rect = m_bounding_rect.united(other.m_bounding_rect); auto new_me = Mask::empty(new_bounding_rect); new_me.for_each_pixel([&](auto x, auto y) { // Widen to int then clamp before narrowing back to avoid annoying overflow checks in the combine functions auto my_alpha = static_cast(get(x, y)); auto other_alpha = static_cast(other.get(x, y)); auto new_alpha = static_cast(clamp(func(my_alpha, other_alpha), 0, 0xFF)); new_me.set(x, y, new_alpha); }); *this = move(new_me); shrink_to_fit(); } template void combinef(Mask const& other, Func func) { auto new_bounding_rect = m_bounding_rect.united(other.m_bounding_rect); auto new_me = Mask::empty(new_bounding_rect); new_me.for_each_pixel([&](auto x, auto y) { auto my_alpha = getf(x, y); auto other_alpha = other.getf(x, y); auto new_alpha = func(my_alpha, other_alpha); new_me.setf(x, y, new_alpha); }); *this = move(new_me); shrink_to_fit(); } }; }