ref: 08e4f9ff9cc448d5fea9b8a62a23aed8aad0d047
dir: /resources/images/resampling.go/
// Copyright 2019 The Hugo Authors. All rights reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package images import "math" // We moved from imaging to the gift package for image processing at some point. // That package had more, but also less resampling filters. So we add the missing // ones here. They are fairly exotic, but someone may use them, so keep them here // for now. // // The filters below are ported from https://github.com/disintegration/imaging/blob/9aab30e6aa535fe3337b489b76759ef97dfaf362/resize.go#L369 // MIT License. var ( // Hermite cubic spline filter (BC-spline; B=0; C=0). hermiteResampling = resamp{ name: "Hermite", support: 1.0, kernel: func(x float32) float32 { x = absf32(x) if x < 1.0 { return bcspline(x, 0.0, 0.0) } return 0 }, } // Mitchell-Netravali cubic filter (BC-spline; B=1/3; C=1/3). mitchellNetravaliResampling = resamp{ name: "MitchellNetravali", support: 2.0, kernel: func(x float32) float32 { x = absf32(x) if x < 2.0 { return bcspline(x, 1.0/3.0, 1.0/3.0) } return 0 }, } // Catmull-Rom - sharp cubic filter (BC-spline; B=0; C=0.5). catmullRomResampling = resamp{ name: "CatmullRomResampling", support: 2.0, kernel: func(x float32) float32 { x = absf32(x) if x < 2.0 { return bcspline(x, 0.0, 0.5) } return 0 }, } // BSpline is a smooth cubic filter (BC-spline; B=1; C=0). bSplineResampling = resamp{ name: "BSplineResampling", support: 2.0, kernel: func(x float32) float32 { x = absf32(x) if x < 2.0 { return bcspline(x, 1.0, 0.0) } return 0 }, } // Gaussian blurring filter. gaussianResampling = resamp{ name: "GaussianResampling", support: 2.0, kernel: func(x float32) float32 { x = absf32(x) if x < 2.0 { return float32(math.Exp(float64(-2 * x * x))) } return 0 }, } // Hann-windowed sinc filter (3 lobes). hannResampling = resamp{ name: "HannResampling", support: 3.0, kernel: func(x float32) float32 { x = absf32(x) if x < 3.0 { return sinc(x) * float32(0.5+0.5*math.Cos(math.Pi*float64(x)/3.0)) } return 0 }, } hammingResampling = resamp{ name: "HammingResampling", support: 3.0, kernel: func(x float32) float32 { x = absf32(x) if x < 3.0 { return sinc(x) * float32(0.54+0.46*math.Cos(math.Pi*float64(x)/3.0)) } return 0 }, } // Blackman-windowed sinc filter (3 lobes). blackmanResampling = resamp{ name: "BlackmanResampling", support: 3.0, kernel: func(x float32) float32 { x = absf32(x) if x < 3.0 { return sinc(x) * float32(0.42-0.5*math.Cos(math.Pi*float64(x)/3.0+math.Pi)+0.08*math.Cos(2.0*math.Pi*float64(x)/3.0)) } return 0 }, } bartlettResampling = resamp{ name: "BartlettResampling", support: 3.0, kernel: func(x float32) float32 { x = absf32(x) if x < 3.0 { return sinc(x) * (3.0 - x) / 3.0 } return 0 }, } // Welch-windowed sinc filter (parabolic window, 3 lobes). welchResampling = resamp{ name: "WelchResampling", support: 3.0, kernel: func(x float32) float32 { x = absf32(x) if x < 3.0 { return sinc(x) * (1.0 - (x * x / 9.0)) } return 0 }, } // Cosine-windowed sinc filter (3 lobes). cosineResampling = resamp{ name: "CosineResampling", support: 3.0, kernel: func(x float32) float32 { x = absf32(x) if x < 3.0 { return sinc(x) * float32(math.Cos((math.Pi/2.0)*(float64(x)/3.0))) } return 0 }, } ) // The following code is borrowed from https://raw.githubusercontent.com/disintegration/gift/master/resize.go // MIT licensed. type resamp struct { name string support float32 kernel func(float32) float32 } func (r resamp) String() string { return r.name } func (r resamp) Support() float32 { return r.support } func (r resamp) Kernel(x float32) float32 { return r.kernel(x) } func bcspline(x, b, c float32) float32 { if x < 0 { x = -x } if x < 1 { return ((12-9*b-6*c)*x*x*x + (-18+12*b+6*c)*x*x + (6 - 2*b)) / 6 } if x < 2 { return ((-b-6*c)*x*x*x + (6*b+30*c)*x*x + (-12*b-48*c)*x + (8*b + 24*c)) / 6 } return 0 } func absf32(x float32) float32 { if x < 0 { return -x } return x } func sinc(x float32) float32 { if x == 0 { return 1 } return float32(math.Sin(math.Pi*float64(x)) / (math.Pi * float64(x))) }