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transform.go
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transform.go
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// Copyright 2013 The imageproxy authors.
// SPDX-License-Identifier: Apache-2.0
package imageproxy
import (
"bytes"
"fmt"
"image"
_ "image/gif" // register gif format
"image/jpeg"
"image/png"
"io"
"log"
"math"
"github.com/disintegration/imaging"
"github.com/muesli/smartcrop"
"github.com/muesli/smartcrop/nfnt"
"github.com/prometheus/client_golang/prometheus"
"github.com/rwcarlsen/goexif/exif"
"golang.org/x/image/bmp" // register bmp format
"golang.org/x/image/tiff" // register tiff format
_ "golang.org/x/image/webp" // register webp format
"willnorris.com/go/gifresize"
)
// default compression quality of resized jpegs
const defaultQuality = 95
// maximum distance into image to look for EXIF tags
const maxExifSize = 1 << 20
// resample filter used when resizing images
var resampleFilter = imaging.Lanczos
// Transform the provided image. img should contain the raw bytes of an
// encoded image in one of the supported formats (gif, jpeg, or png). The
// bytes of a similarly encoded image is returned.
func Transform(img []byte, opt Options) ([]byte, error) {
if !opt.transform() {
// bail if no transformation was requested
return img, nil
}
// decode image
m, format, err := image.Decode(bytes.NewReader(img))
if err != nil {
return nil, err
}
// apply EXIF orientation for jpeg and tiff source images. Read at most
// up to maxExifSize looking for EXIF tags.
if format == "jpeg" || format == "tiff" {
r := io.LimitReader(bytes.NewReader(img), maxExifSize)
if exifOpt := exifOrientation(r); exifOpt.transform() {
m = transformImage(m, exifOpt)
}
}
// encode webp and tiff as jpeg by default
if format == "tiff" || format == "webp" {
format = "jpeg"
}
if opt.Format != "" {
format = opt.Format
}
// transform and encode image
buf := new(bytes.Buffer)
switch format {
case "bmp":
m = transformImage(m, opt)
err = bmp.Encode(buf, m)
if err != nil {
return nil, err
}
case "gif":
fn := func(img image.Image) image.Image {
return transformImage(img, opt)
}
err = gifresize.Process(buf, bytes.NewReader(img), fn)
if err != nil {
return nil, err
}
case "jpeg":
quality := opt.Quality
if quality == 0 {
quality = defaultQuality
}
m = transformImage(m, opt)
err = jpeg.Encode(buf, m, &jpeg.Options{Quality: quality})
if err != nil {
return nil, err
}
case "png":
m = transformImage(m, opt)
err = png.Encode(buf, m)
if err != nil {
return nil, err
}
case "tiff":
m = transformImage(m, opt)
err = tiff.Encode(buf, m, &tiff.Options{Compression: tiff.Deflate, Predictor: true})
if err != nil {
return nil, err
}
default:
return nil, fmt.Errorf("unsupported format: %v", format)
}
return buf.Bytes(), nil
}
// evaluateFloat interprets the option value f. If f is between 0 and 1, it is
// interpreted as a percentage of max, otherwise it is treated as an absolute
// value. If f is less than 0, 0 is returned.
func evaluateFloat(f float64, max int) int {
if 0 < f && f < 1 {
return int(float64(max) * f)
}
if f < 0 {
return 0
}
return int(f)
}
// resizeParams determines if the image needs to be resized, and if so, the
// dimensions to resize to.
func resizeParams(m image.Image, opt Options) (w, h int, resize bool) {
// convert percentage width and height values to absolute values
imgW := m.Bounds().Dx()
imgH := m.Bounds().Dy()
w = evaluateFloat(opt.Width, imgW)
h = evaluateFloat(opt.Height, imgH)
// never resize larger than the original image unless specifically allowed
if !opt.ScaleUp {
if w > imgW {
w = imgW
}
if h > imgH {
h = imgH
}
}
// if requested width and height match the original, skip resizing
if (w == imgW || w == 0) && (h == imgH || h == 0) {
return 0, 0, false
}
return w, h, true
}
var smartcropAnalyzer = smartcrop.NewAnalyzer(nfnt.NewDefaultResizer())
// cropParams calculates crop rectangle parameters to keep it in image bounds
func cropParams(m image.Image, opt Options) image.Rectangle {
if !opt.SmartCrop && opt.CropX == 0 && opt.CropY == 0 && opt.CropWidth == 0 && opt.CropHeight == 0 {
return m.Bounds()
}
// width and height of image
imgW := m.Bounds().Dx()
imgH := m.Bounds().Dy()
if opt.SmartCrop {
w := evaluateFloat(opt.Width, imgW)
h := evaluateFloat(opt.Height, imgH)
r, err := smartcropAnalyzer.FindBestCrop(m, w, h)
if err != nil {
log.Printf("smartcrop error finding best crop: %v", err)
} else {
return r
}
}
// top left coordinate of crop
x0 := evaluateFloat(math.Abs(opt.CropX), imgW)
if opt.CropX < 0 {
x0 = imgW - x0 // measure from right
}
y0 := evaluateFloat(math.Abs(opt.CropY), imgH)
if opt.CropY < 0 {
y0 = imgH - y0 // measure from bottom
}
// width and height of crop
w := evaluateFloat(opt.CropWidth, imgW)
if w == 0 {
w = imgW
}
h := evaluateFloat(opt.CropHeight, imgH)
if h == 0 {
h = imgH
}
// bottom right coordinate of crop
x1 := x0 + w
if x1 > imgW {
x1 = imgW
}
y1 := y0 + h
if y1 > imgH {
y1 = imgH
}
return image.Rect(x0, y0, x1, y1)
}
// read EXIF orientation tag from r and adjust opt to orient image correctly.
func exifOrientation(r io.Reader) (opt Options) {
// Exif Orientation Tag values
// http://sylvana.net/jpegcrop/exif_orientation.html
const (
topLeftSide = 1
topRightSide = 2
bottomRightSide = 3
bottomLeftSide = 4
leftSideTop = 5
rightSideTop = 6
rightSideBottom = 7
leftSideBottom = 8
)
ex, err := exif.Decode(r)
if err != nil {
return opt
}
tag, err := ex.Get(exif.Orientation)
if err != nil {
return opt
}
orient, err := tag.Int(0)
if err != nil {
return opt
}
switch orient {
case topLeftSide:
// do nothing
case topRightSide:
opt.FlipHorizontal = true
case bottomRightSide:
opt.Rotate = 180
case bottomLeftSide:
opt.FlipVertical = true
case leftSideTop:
opt.Rotate = 90
opt.FlipVertical = true
case rightSideTop:
opt.Rotate = -90
case rightSideBottom:
opt.Rotate = 90
opt.FlipHorizontal = true
case leftSideBottom:
opt.Rotate = 90
}
return opt
}
// transformImage modifies the image m based on the transformations specified
// in opt.
func transformImage(m image.Image, opt Options) image.Image {
timer := prometheus.NewTimer(metricTransformationDuration)
defer timer.ObserveDuration()
// Parse crop and resize parameters before applying any transforms.
// This is to ensure that any percentage-based values are based off the
// size of the original image.
rect := cropParams(m, opt)
w, h, resize := resizeParams(m, opt)
// crop if needed
if !m.Bounds().Eq(rect) {
m = imaging.Crop(m, rect)
}
// resize if needed
if resize {
if opt.Fit {
m = imaging.Fit(m, w, h, resampleFilter)
} else {
if w == 0 || h == 0 {
m = imaging.Resize(m, w, h, resampleFilter)
} else {
m = imaging.Thumbnail(m, w, h, resampleFilter)
}
}
}
// rotate
rotate := float64(opt.Rotate) - math.Floor(float64(opt.Rotate)/360)*360
switch rotate {
case 90:
m = imaging.Rotate90(m)
case 180:
m = imaging.Rotate180(m)
case 270:
m = imaging.Rotate270(m)
}
// flip
if opt.FlipVertical {
m = imaging.FlipV(m)
}
if opt.FlipHorizontal {
m = imaging.FlipH(m)
}
return m
}