impeller/geometry/sigma.h - mirrors/engine - Git at Google

 // Copyright 2013 The Flutter Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #pragma once

 #include "impeller/geometry/scalar.h"

 namespace impeller {

 /// For filters that use a Gaussian distribution, this is the `Radius` size to
 /// use per `Sigma` (standard deviation).
 ///
 /// This cutoff (sqrt(3)) is taken from Flutter and Skia (where the
 /// multiplicative inverse of this constant is used (1 / sqrt(3)):
 /// https://api.flutter.dev/flutter/dart-ui/Shadow/convertRadiusToSigma.html
 ///
 /// In practice, this value is somewhat arbitrary, and can be changed to a
 /// higher number to integrate more of the Gaussian function and render higher
 /// quality blurs (with exponentially diminishing returns for the same sigma
 /// input). Making this value any lower results in a noticable loss of
 /// quality in the blur.
 constexpr static float kKernelRadiusPerSigma = 1.73205080757;

 struct Radius;

 /// @brief  In filters that use Gaussian distributions, "sigma" is a size of
 ///         one standard deviation in terms of the local space pixel grid of
 ///         the filter input. In other words, this determines how wide the
 ///         distribution stretches.
 struct Sigma {
   Scalar sigma = 0.0;

   constexpr Sigma() = default;

   explicit constexpr Sigma(Scalar p_sigma) : sigma(p_sigma) {}

   operator Radius() const;  // NOLINT(google-explicit-constructor)
 };

 /// @brief  For convolution filters, the "radius" is the size of the
 ///         convolution kernel to use on the local space pixel grid of the
 ///         filter input.
 ///         For Gaussian blur kernels, this unit has a linear
 ///         relationship with `Sigma`. See `kKernelRadiusPerSigma` for
 ///         details on how this relationship works.
 struct Radius {
   Scalar radius = 0.0;

   constexpr Radius() = default;

   explicit constexpr Radius(Scalar p_radius) : radius(p_radius) {}

   operator Sigma() const;  // NOLINT(google-explicit-constructor)
 };

 }  // namespace impeller
	// Copyright 2013 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#pragma once

	#include "impeller/geometry/scalar.h"

	namespace impeller {

	/// For filters that use a Gaussian distribution, this is the `Radius` size to
	/// use per `Sigma` (standard deviation).
	///
	/// This cutoff (sqrt(3)) is taken from Flutter and Skia (where the
	/// multiplicative inverse of this constant is used (1 / sqrt(3)):
	/// https://api.flutter.dev/flutter/dart-ui/Shadow/convertRadiusToSigma.html
	///
	/// In practice, this value is somewhat arbitrary, and can be changed to a
	/// higher number to integrate more of the Gaussian function and render higher
	/// quality blurs (with exponentially diminishing returns for the same sigma
	/// input). Making this value any lower results in a noticable loss of
	/// quality in the blur.
	constexpr static float kKernelRadiusPerSigma = 1.73205080757;

	struct Radius;

	/// @brief In filters that use Gaussian distributions, "sigma" is a size of
	/// one standard deviation in terms of the local space pixel grid of
	/// the filter input. In other words, this determines how wide the
	/// distribution stretches.
	struct Sigma {
	Scalar sigma = 0.0;

	constexpr Sigma() = default;

	explicit constexpr Sigma(Scalar p_sigma) : sigma(p_sigma) {}

	operator Radius() const; // NOLINT(google-explicit-constructor)
	};

	/// @brief For convolution filters, the "radius" is the size of the
	/// convolution kernel to use on the local space pixel grid of the
	/// filter input.
	/// For Gaussian blur kernels, this unit has a linear
	/// relationship with `Sigma`. See `kKernelRadiusPerSigma` for
	/// details on how this relationship works.
	struct Radius {
	Scalar radius = 0.0;

	constexpr Radius() = default;

	explicit constexpr Radius(Scalar p_radius) : radius(p_radius) {}

	operator Sigma() const; // NOLINT(google-explicit-constructor)
	};

	} // namespace impeller