#pragma once #include #include #include "common.hpp" POLYBAR_NS namespace math_util { /** * Get the min value */ template ValueType min(ValueType one, ValueType two) { return one < two ? one : two; } /** * Get the max value */ template ValueType max(ValueType one, ValueType two) { return one > two ? one : two; } /** * Limit value T by min and max bounds */ template ValueType cap(ValueType value, ValueType min_value, ValueType max_value) { value = std::min(value, max_value); value = std::max(value, min_value); return value; } /** * Calculate the percentage for a value * between min_value and max_value */ template ReturnType unbounded_percentage(ValueType value, ValueType min_value, ValueType max_value) { auto upper = (max_value - min_value); auto lower = static_cast(value - min_value); float percentage = (lower / upper) * 100.0f; if (std::is_integral()) { return static_cast(std::round(percentage)); } else { return percentage; } } /** * Calculates percentage for a value and * clamps it to a percentage between 0 and 100 */ template ReturnType percentage(ValueType value, ValueType min_value, ValueType max_value) { auto raw_percentage = unbounded_percentage(value, min_value, max_value); return cap(raw_percentage, 0.0f, 100.0f); } /** * Calculates percentage for a value and * clamps it to a percentage between 0 and 100 */ template ReturnType percentage(ValueType value, ValueType max_value) { return percentage(value, max_value - max_value, max_value); } /** * Get value for signed percentage of `max_value` (cap between -max_value and max_value) */ template ReturnType signed_percentage_to_value(ValueType signed_percentage, ValueType max_value) { if (std::is_integral()) return cap(signed_percentage * max_value / 100.0f + 0.5f, -max_value, max_value); else return cap(signed_percentage * max_value / 100.0f, -max_value, max_value); } /** * Get value for percentage of `max_value` (cap between 0 and max_value) */ template ReturnType percentage_to_value(ValueType percentage, ValueType max_value) { if (std::is_integral()) return cap(percentage * max_value / 100.0f + 0.5f, 0, max_value); else return cap(percentage * max_value / 100.0f, 0.0f, max_value); } /** * Get value for percentage of `min_value` to `max_value` */ template ReturnType percentage_to_value(ValueType percentage, ValueType min_value, ValueType max_value) { if (std::is_integral()) return cap(percentage * (max_value - min_value) / 100.0f + 0.5f, 0, max_value - min_value) + min_value; else return cap(percentage * (max_value - min_value) / 100.0f, 0.0f, max_value - min_value) + min_value; } template ReturnType nearest_10(double value) { return static_cast(static_cast(value / 10.0 + 0.5) * 10.0); } template ReturnType nearest_5(double value) { return static_cast(static_cast(value / 5.0 + 0.5) * 5.0); } inline int ceil(double value, int step = 1) { return static_cast((value * 10 + step * 10 - 1) / (step * 10)) * step; } } // namespace math_util POLYBAR_NS_END