~dricottone/image2ascii

ref: a03493e21bf601ce28a5450244d692a1de5ca2cb image2ascii/convert/resize.go -rw-r--r-- 5.8 KiB
a03493e2Dominic Ricottone Migrate from Dep to Go Modules 2 years ago
                                                                                
c6c0ddbf qeesung
9b483cdb qeesung
9b483cdb qeesung
55dcbb9f qeesung
9b483cdb qeesung
8ba26814 qeesung
4ad980ef qeesung
eaef718c qeesung
4ad980ef qeesung
eaef718c qeesung
4ad980ef qeesung
8ba26814 qeesung
4ad980ef qeesung
8ba26814 qeesung
4ad980ef qeesung
eaef718c qeesung
4ad980ef qeesung
49547468 qeesung
4ad980ef qeesung
9b483cdb qeesung
eaef718c qeesung
55dcbb9f qeesung
eaef718c qeesung
9e6742da qeesung
eaef718c qeesung
a482eea7 qeesung
c6c0ddbf qeesung
eaef718c qeesung
9b483cdb qeesung
9e6742da qeesung
eaef718c qeesung
4ad980ef qeesung
9e6742da qeesung
4ad980ef qeesung
9e6742da qeesung
4ad980ef qeesung
9e6742da qeesung
4ad980ef qeesung
9e6742da qeesung
4ad980ef qeesung
9e6742da qeesung
4ad980ef qeesung
9e6742da qeesung
8ba26814 qeesung
4ad980ef qeesung
9e6742da qeesung
8ba26814 qeesung
4ad980ef qeesung
55dcbb9f qeesung
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
package convert

import (
	"github.com/nfnt/resize"
	"git.dominic-ricottone.com/~dricottone/image2ascii/terminal"
	"image"
	"log"
)

// NewResizeHandler create a new resize handler
func NewResizeHandler() ResizeHandler {
	handler := &ImageResizeHandler{
		terminal: terminal.NewTerminalAccessor(),
	}

	initResizeResolver(handler)
	return handler
}

// initResizeResolver register the size resolvers
func initResizeResolver(handler *ImageResizeHandler) {
	sizeResolvers := make([]imageSizeResolver, 0, 5)
	// fixed height or width resolver
	sizeResolvers = append(sizeResolvers, imageSizeResolver{
		match: func(options *Options) bool {
			return options.FixedWidth != -1 || options.FixedHeight != -1
		},
		compute: func(sz image.Rectangle, options *Options, handler *ImageResizeHandler) (width, height int, err error) {
			height = sz.Max.Y
			width = sz.Max.X
			if options.FixedWidth != -1 {
				width = options.FixedWidth
			}

			if options.FixedHeight != -1 {
				height = options.FixedHeight
			}
			return
		},
	})
	// scaled by ratio
	sizeResolvers = append(sizeResolvers, imageSizeResolver{
		match: func(options *Options) bool {
			return options.Ratio != 1
		},
		compute: func(sz image.Rectangle, options *Options, handler *ImageResizeHandler) (width, height int, err error) {
			ratio := options.Ratio
			width = handler.ScaleWidthByRatio(float64(sz.Max.X), ratio)
			height = handler.ScaleHeightByRatio(float64(sz.Max.Y), ratio)
			return
		},
	})
	// scaled by stretched screen
	sizeResolvers = append(sizeResolvers, imageSizeResolver{
		match: func(options *Options) bool {
			return options.StretchedScreen
		},
		compute: func(sz image.Rectangle, options *Options, handler *ImageResizeHandler) (width, height int, err error) {
			return handler.terminal.ScreenSize()
		},
	})
	// scaled by fit the screen
	sizeResolvers = append(sizeResolvers, imageSizeResolver{
		match: func(options *Options) bool {
			return options.FitScreen
		},
		compute: func(sz image.Rectangle, options *Options, handler *ImageResizeHandler) (width, height int, err error) {
			return handler.CalcProportionalFittingScreenSize(sz)
		},
	})
	// default size
	sizeResolvers = append(sizeResolvers, imageSizeResolver{
		match: func(options *Options) bool {
			return true
		},
		compute: func(sz image.Rectangle, options *Options, handler *ImageResizeHandler) (width, height int, err error) {
			return sz.Max.X, sz.Max.Y, nil
		},
	})

	handler.imageSizeResolvers = sizeResolvers
}

// ResizeHandler define the operation to resize a image
type ResizeHandler interface {
	ScaleImage(image image.Image, options *Options) (newImage image.Image)
}

// ImageResizeHandler implement the ResizeHandler interface and
// responsible for image resizing
type ImageResizeHandler struct {
	terminal           terminal.Terminal
	imageSizeResolvers []imageSizeResolver
}

// imageSizeResolver to resolve the image size from the options
type imageSizeResolver struct {
	match   func(options *Options) bool
	compute func(sz image.Rectangle, options *Options, handler *ImageResizeHandler) (width, height int, err error)
}

// ScaleImage resize the convert to expected size base on the convert options
func (handler *ImageResizeHandler) ScaleImage(image image.Image, options *Options) (newImage image.Image) {
	sz := image.Bounds()
	newWidth, newHeight, err := handler.resolveSize(sz, options)
	if err != nil {
		log.Fatal(err)
	}

	newImage = resize.Resize(uint(newWidth), uint(newHeight), image, resize.Lanczos3)
	return
}

// resolveSize resolve the image size
func (handler *ImageResizeHandler) resolveSize(sz image.Rectangle, options *Options) (width, height int, err error) {
	for _, resolver := range handler.imageSizeResolvers {
		if resolver.match(options) {
			return resolver.compute(sz, options, handler)
		}
	}
	return sz.Max.X, sz.Max.Y, nil
}

// CalcProportionalFittingScreenSize proportional scale the image
// so that the terminal can just show the picture.
func (handler *ImageResizeHandler) CalcProportionalFittingScreenSize(sz image.Rectangle) (newWidth, newHeight int, err error) {
	screenWidth, screenHeight, err := handler.terminal.ScreenSize()
	if err != nil {
		log.Fatal(nil)
	}
	newWidth, newHeight = handler.CalcFitSize(
		float64(screenWidth),
		float64(screenHeight),
		float64(sz.Max.X),
		float64(sz.Max.Y))
	return
}

// CalcFitSizeRatio through the given length and width,
// the computation can match the optimal scaling ratio of the length and width.
// In other words, it is able to give a given size rectangle to contain pictures
// Either match the width first, then scale the length equally,
// or match the length first, then scale the height equally.
// More detail please check the example
func (handler *ImageResizeHandler) CalcFitSizeRatio(width, height, imageWidth, imageHeight float64) (ratio float64) {
	ratio = 1.0
	// try to fit the height
	ratio = height / imageHeight
	scaledWidth := imageWidth * ratio / handler.terminal.CharWidth()
	if scaledWidth < width {
		return ratio / handler.terminal.CharWidth()
	}

	// try to fit the width
	ratio = width / imageWidth
	return ratio
}

// CalcFitSize through the given length and width ,
// Calculation is able to match the length and width of
// the specified size, and is proportional scaling.
func (handler *ImageResizeHandler) CalcFitSize(width, height, toBeFitWidth, toBeFitHeight float64) (fitWidth, fitHeight int) {
	ratio := handler.CalcFitSizeRatio(width, height, toBeFitWidth, toBeFitHeight)
	fitWidth = handler.ScaleWidthByRatio(toBeFitWidth, ratio)
	fitHeight = handler.ScaleHeightByRatio(toBeFitHeight, ratio)
	return
}

// ScaleWidthByRatio scaled the width by ratio
func (handler *ImageResizeHandler) ScaleWidthByRatio(width float64, ratio float64) int {
	return int(width * ratio)
}

// ScaleHeightByRatio scaled the height by ratio
func (handler *ImageResizeHandler) ScaleHeightByRatio(height float64, ratio float64) int {
	return int(height * ratio * handler.terminal.CharWidth())
}