189 lines
5.3 KiB
Go
189 lines
5.3 KiB
Go
// Copyright ©2015 The Gonum Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// Copyright ©2013 The bíogo Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// Package palette provides basic color palette handling.
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package palette // import "gonum.org/v1/plot/palette"
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import (
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"errors"
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"image/color"
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"math"
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)
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// Palette is a collection of colors ordered into a palette.
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type Palette interface {
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Colors() []color.Color
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}
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// DivergingPalette is a collection of colors ordered into a palette with
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// a critical class or break in the middle of the color range.
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type DivergingPalette interface {
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Palette
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// CriticalIndex returns the indices of the lightest
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// (median) color or colors in the DivergingPalette.
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// The low and high index values will be equal when
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// there is a single median color.
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CriticalIndex() (low, high int)
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}
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// A ColorMap maps scalar values to colors.
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type ColorMap interface {
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// At returns the color associated with the given value.
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// If the value is not between Max() and Min(), an error is returned.
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At(float64) (color.Color, error)
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// Max returns the current maximum value of the ColorMap.
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Max() float64
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// SetMax sets the maximum value of the ColorMap.
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SetMax(float64)
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// Min returns the current minimum value of the ColorMap.
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Min() float64
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// SetMin sets the minimum value of the ColorMap.
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SetMin(float64)
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// Alpha returns the opacity value of the ColorMap.
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Alpha() float64
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// SetAlpha sets the opacity value of the ColorMap. Zero is transparent
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// and one is completely opaque. The default value of alpha should be
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// expected to be one. The function should be expected to panic
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// if alpha is not between zero and one.
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SetAlpha(float64)
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// Palette creates a Palette with the specified number of colors
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// from the ColorMap.
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Palette(colors int) Palette
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}
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// DivergingColorMap maps scalar values to colors that diverge
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// from a central value.
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type DivergingColorMap interface {
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ColorMap
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// SetConvergePoint sets the value where the diverging colors
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// should meet. The default value should be expected to be
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// (Min() + Max()) / 2. It should be expected that calling either
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// SetMax() or SetMin() will set a new default value, so for a
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// custom convergence point this function should be called after
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// SetMax() and SetMin(). The function should be expected to panic
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// if the value is not between Min() and Max().
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SetConvergePoint(float64)
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// ConvergePoint returns the value where the diverging colors meet.
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ConvergePoint() float64
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}
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// Hue represents a hue in HSV color space. Valid Hues are within [0, 1].
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type Hue float64
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const (
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Red Hue = Hue(iota) / 6
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Yellow
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Green
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Cyan
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Blue
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Magenta
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)
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var (
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// ErrOverflow is the error returned by ColorMaps when the specified
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// value is greater than the maximum value.
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ErrOverflow = errors.New("palette: specified value > maximum")
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// ErrUnderflow is the error returned by ColorMaps when the specified
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// value is less than the minimum value.
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ErrUnderflow = errors.New("palette: specified value < minimum")
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// ErrNaN is the error returned by ColorMaps when the specified
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// value is NaN.
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ErrNaN = errors.New("palette: specified value == NaN")
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)
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// Complement returns the complementary hue of a Hue.
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func (h Hue) Complement() Hue { return Hue(math.Mod(float64(h+0.5), 1)) }
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type palette []color.Color
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func (p palette) Colors() []color.Color { return p }
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type divergingPalette []color.Color
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func (p divergingPalette) Colors() []color.Color { return p }
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func (d divergingPalette) CriticalIndex() (low, high int) {
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l := len(d)
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return (l - 1) / 2, l / 2
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}
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// Rainbow returns a rainbow palette with the specified number of colors, saturation
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// value and alpha, and hues in the specified range.
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func Rainbow(colors int, start, end Hue, sat, val, alpha float64) Palette {
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p := make(palette, colors)
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hd := float64(end-start) / float64(colors-1)
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c := HSVA{V: val, S: sat, A: alpha}
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for i := range p {
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c.H = float64(start) + float64(i)*hd
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p[i] = color.NRGBAModel.Convert(c)
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}
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return p
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}
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// Heat returns a red to yellow palette with the specified number of colors and alpha.
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func Heat(colors int, alpha float64) Palette {
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p := make(palette, colors)
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j := colors / 4
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i := colors - j
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hd := float64(Yellow-Red) / float64(i-1)
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c := HSVA{V: 1, S: 1, A: alpha}
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for k := range p[:i] {
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c.H = float64(Red) + float64(k)*hd
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p[k] = color.NRGBAModel.Convert(c)
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}
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if j == 0 {
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return p
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}
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c.H = float64(Yellow)
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start, end := 1-1/(2*float64(j)), 1/(2*float64(j))
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c.S = start
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sd := (end - start) / float64(j-1)
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for k := range p[i:] {
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c.S = start + float64(k)*sd
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p[k+i] = color.NRGBAModel.Convert(c)
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}
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return p
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}
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// Radial return a diverging palette across the specified range, through white and with
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// the specified alpha.
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func Radial(colors int, start, end Hue, alpha float64) DivergingPalette {
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p := make(divergingPalette, colors)
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h := colors / 2
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c := HSVA{V: 1, A: alpha}
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ds := 0.5 / float64(h)
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for i := range p[:h] {
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c.H = float64(start)
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c.S = 0.5 - float64(i)*ds
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p[i] = color.NRGBAModel.Convert(c)
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c.H = float64(end)
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p[len(p)-1-i] = color.NRGBAModel.Convert(c)
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}
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if colors%2 != 0 {
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p[colors/2] = color.NRGBA{0xff, 0xff, 0xff, byte(math.MaxUint8 * alpha)}
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}
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return p
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}
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