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gitea/vendor/github.com/nfnt/resize/README.md

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Added all required dependencies
8 years ago
 
  1. Resize
  2. ======
  3. 

  4. Image resizing for the [Go programming language](http://golang.org) with common interpolation methods.
  5. 

  6. [![Build Status](https://travis-ci.org/nfnt/resize.svg)](https://travis-ci.org/nfnt/resize)
  7. 

  8. Installation
  9. ------------
  10. 

  11. ```bash
  12. $ go get github.com/nfnt/resize
  13. ```
  14. 

  15. It's that easy!
  16. 

  17. Usage
  18. -----
  19. 

  20. This package needs at least Go 1.1. Import package with
  21. 

  22. ```go
  23. import "github.com/nfnt/resize"
  24. ```
  25. 

  26. The resize package provides 2 functions:
  27. 

  28. * `resize.Resize` creates a scaled image with new dimensions (`width`, `height`) using the interpolation function `interp`.
  29.   If either `width` or `height` is set to 0, it will be set to an aspect ratio preserving value.
  30. * `resize.Thumbnail` downscales an image preserving its aspect ratio to the maximum dimensions (`maxWidth`, `maxHeight`).
  31.   It will return the original image if original sizes are smaller than the provided dimensions.
  32. 

  33. ```go
  34. resize.Resize(width, height uint, img image.Image, interp resize.InterpolationFunction) image.Image
  35. resize.Thumbnail(maxWidth, maxHeight uint, img image.Image, interp resize.InterpolationFunction) image.Image
  36. ```
  37. 

  38. The provided interpolation functions are (from fast to slow execution time)
  39. 

  40. - `NearestNeighbor`: [Nearest-neighbor interpolation](http://en.wikipedia.org/wiki/Nearest-neighbor_interpolation)
  41. - `Bilinear`: [Bilinear interpolation](http://en.wikipedia.org/wiki/Bilinear_interpolation)
  42. - `Bicubic`: [Bicubic interpolation](http://en.wikipedia.org/wiki/Bicubic_interpolation)
  43. - `MitchellNetravali`: [Mitchell-Netravali interpolation](http://dl.acm.org/citation.cfm?id=378514)
  44. - `Lanczos2`: [Lanczos resampling](http://en.wikipedia.org/wiki/Lanczos_resampling) with a=2
  45. - `Lanczos3`: [Lanczos resampling](http://en.wikipedia.org/wiki/Lanczos_resampling) with a=3
  46. 

  47. Which of these methods gives the best results depends on your use case.
  48. 

  49. Sample usage:
  50. 

  51. ```go
  52. package main
  53. 

  54. import (
  55. 	"github.com/nfnt/resize"
  56. 	"image/jpeg"
  57. 	"log"
  58. 	"os"
  59. )
  60. 

  61. func main() {
  62. 	// open "test.jpg"
  63. 	file, err := os.Open("test.jpg")
  64. 	if err != nil {
  65. 		log.Fatal(err)
  66. 	}
  67. 

  68. 	// decode jpeg into image.Image
  69. 	img, err := jpeg.Decode(file)
  70. 	if err != nil {
  71. 		log.Fatal(err)
  72. 	}
  73. 	file.Close()
  74. 

  75. 	// resize to width 1000 using Lanczos resampling
  76. 	// and preserve aspect ratio
  77. 	m := resize.Resize(1000, 0, img, resize.Lanczos3)
  78. 

  79. 	out, err := os.Create("test_resized.jpg")
  80. 	if err != nil {
  81. 		log.Fatal(err)
  82. 	}
  83. 	defer out.Close()
  84. 

  85. 	// write new image to file
  86. 	jpeg.Encode(out, m, nil)
  87. }
  88. ```
  89. 

  90. Caveats
  91. -------
  92. 

  93. * Optimized access routines are used for `image.RGBA`, `image.NRGBA`, `image.RGBA64`, `image.NRGBA64`, `image.YCbCr`, `image.Gray`, and `image.Gray16` types. All other image types are accessed in a generic way that will result in slow processing speed.
  94. * JPEG images are stored in `image.YCbCr`. This image format stores data in a way that will decrease processing speed. A resize may be up to 2 times slower than with `image.RGBA`. 
  95. 

  96. 

  97. Downsizing Samples
  98. -------
  99. 

  100. Downsizing is not as simple as it might look like. Images have to be filtered before they are scaled down, otherwise aliasing might occur.
  101. Filtering is highly subjective: Applying too much will blur the whole image, too little will make aliasing become apparent.
  102. Resize tries to provide sane defaults that should suffice in most cases.
  103. 

  104. ### Artificial sample

  105. 

  106. Original image
  107. ![Rings](http://nfnt.github.com/img/rings_lg_orig.png)
  108. 

  109. <table>
  110. <tr>
  111. <th><img src="http://nfnt.github.com/img/rings_300_NearestNeighbor.png" /><br>Nearest-Neighbor</th>
  112. <th><img src="http://nfnt.github.com/img/rings_300_Bilinear.png" /><br>Bilinear</th>
  113. </tr>
  114. <tr>
  115. <th><img src="http://nfnt.github.com/img/rings_300_Bicubic.png" /><br>Bicubic</th>
  116. <th><img src="http://nfnt.github.com/img/rings_300_MitchellNetravali.png" /><br>Mitchell-Netravali</th>
  117. </tr>
  118. <tr>
  119. <th><img src="http://nfnt.github.com/img/rings_300_Lanczos2.png" /><br>Lanczos2</th>
  120. <th><img src="http://nfnt.github.com/img/rings_300_Lanczos3.png" /><br>Lanczos3</th>
  121. </tr>
  122. </table>
  123. 

  124. ### Real-Life sample

  125. 

  126. Original image  
  127. ![Original](http://nfnt.github.com/img/IMG_3694_720.jpg)
  128. 

  129. <table>
  130. <tr>
  131. <th><img src="http://nfnt.github.com/img/IMG_3694_300_NearestNeighbor.png" /><br>Nearest-Neighbor</th>
  132. <th><img src="http://nfnt.github.com/img/IMG_3694_300_Bilinear.png" /><br>Bilinear</th>
  133. </tr>
  134. <tr>
  135. <th><img src="http://nfnt.github.com/img/IMG_3694_300_Bicubic.png" /><br>Bicubic</th>
  136. <th><img src="http://nfnt.github.com/img/IMG_3694_300_MitchellNetravali.png" /><br>Mitchell-Netravali</th>
  137. </tr>
  138. <tr>
  139. <th><img src="http://nfnt.github.com/img/IMG_3694_300_Lanczos2.png" /><br>Lanczos2</th>
  140. <th><img src="http://nfnt.github.com/img/IMG_3694_300_Lanczos3.png" /><br>Lanczos3</th>
  141. </tr>
  142. </table>
  143. 

  144. 

  145. License
  146. -------
  147. 

  148. Copyright (c) 2012 Jan Schlicht <janschlicht@gmail.com>
  149. Resize is released under a MIT style license.